201227082 六、發明說明: 【發明所屬之技術領域】 本發明是-種光職減構,特難-種紐供㈣錄之絲模組結 構。 【先前技術】 請參閱第1圖所示,液晶顯示器i主要係由前端之液晶顯示模組u以 及後端之背光模組12所組成’其中上述背光模組係用以提供光線至液晶面 板。 • 上述背光模、組12至少包含可撓性電路板I2卜佈設於可撓性電路板121 上之複數光源122與導光板124,其中上述光源m可為冷陰極勞光燈管或 發光二極體。然而’通常於每-光源122之正上方的輝度通常比較高,而相 鄰二光源之間則係輝度較低之區域,因此於導光板124對應光源122正上方 區域會產生亮紋,而對應相鄰二光源之間的上方區域會產生暗紋,因此背光 模組12所提供的规會有不均勻的現象,如此將影·晶顯示^的顯示品 質。 根據上述,開發一種能提供均勻面光源而不產生雲紋現象(lamp mura) 之背光模組係相關產業亟欲發展之技術。 【發明内容】 有鑑於此,本發明提出一種光源模組結構,包含用以投射光線的發光元 件與軟性電路板,其中軟性電路板具有設置發光元件的第一區域、實質上垂 直連接於第一區域的第二區域與用以反射發光元件之光線並且分別連接於 第二區域之二側的複數第三區域。 本發明亦提出一種光源模組結構,包含:用以投射光線的發光元件與反 射罩’其中反射罩具有第一區域、實質上垂直連接於第一區域的第二區域與 201227082 用以反射發光元件之光線並且分別連接於第二區域之二側的複數第三區域。 本發明所揭示之光源模組結構包含複數第三區域,上述第三區域係直接 以軟性電路板或反射罩形成’能將光線均勻集中投射至液晶顯示面板,從而 提供均勻之光源,避免產生雲紋現象,進而提升液晶顯示裝置之顯示效果。 以下在實施方式中詳細敘述本發明之詳細特徵以及優點,其内容足以使 任何熟習相關技藝者瞭解本發明之技術内容並據以實施,且根據本說明書所 揭露之内容、申請專利範圍及圖式,任何熟習相關技藝者可輕易地理解本發 明相關之目的及優點。 【實施方式】 請參閱第2圖所示,其係揭露本發明第一實施例所揭露之液晶顯示裝置 2,其中箭頭符號係表示光線投射方向。液晶顯示裝置2主要係由面板模組 2a與光源模組結構2b所組成。其中’面板模組2a係能具有薄膜電晶體陣 列基板、液晶層、配向膜、彩色濾光基板、共通電極、偏光片與驅動積體電 路等元件’上述面板模組2a之組成元件並未示圖並且僅為例示,本發明並 不以此為限。 請參閱第3A圖所示,光源模組結構北主要係由發光元件21、軟性電 路板23與導光板25所組成,其中導光板25係利用全反射的原理將光線傳 至遠端此外’上述光源模組結構2更可包含其他組成元件如印刷電路板(未 示圖)與散熱器(未示圖)等。 發光7C件21,用以投射光線,藉此提供面板模組2a顯示影像時所需之 光源。其中發光元件21係能為發光二極體,然圖示所示之發光元件21的形 狀結構僅為例示,本發明並不以此為限。 軟性電路板23大致可以區分為第-區域231、第二區域233與複數第 三區域235。 201227082 第一區域231,佈設有電路並且用以設置發光元件21。再者,第一區域 231係為複數層板體,至少會包含表面保護層22a、銅層22b與基底層22c。 第一區域233,實質上垂直連接於第一區域231,其係能為複數層板體, 〇 s表面保護層22a、銅層挪與基底層22。或單層板體,僅包含表面保護 層 22a。 複數第三區域235,係為單層板體,僅包含表面保護層22a,並且分別 連接於第—區域233之二侧,用以反射發光元件21所投射的光線,而使光 # 、線能均勾投射至導光板25。其次,上述第二區域233與第三區域235之間 實質為直角或純角,其之間的設置角度係能依據發光元件」戶斤投射之光 4廣度而作調整。此外,每一第三區域MS能夠連接於另一光源模組結構之 第二區域235,如第3B圖所示。 另方面’液晶顯不褒置2更具有反射罩29,用以承載上述之光源模 組結構2b並且用以反射光線,如第3C圖所示。 承述_L述第-區域231、第二區域233與複數第三區域说之板體結構 如第4A至4E圓所示。 籲 其中,第4A與犯圖揭示之第一區域况具有表面保護層瓜、銅層 挪與基底層说,而第二區域a3與複數第三區域故具絲面保護層 22a ’並且第一區域231之表面保護層瓜與第二區域233及複數第三區域 235之表面保護層22a係一體成形。 第4C與4D圖揭示之第一區域231具有表面保護層咖、銅層細盥 基底層故,而第二區域233與複數第三區域故具有表面保護層22a /而 第二區域233與複數第三區域235係一體成形,惟第二區域说與複數第三 區域235係另外設置於第-區域231之表面保護層瓜表面的一側邊。 第4E圖揭不之第區域231具有表面保護層22玨、銅層2处與基底層 201227082 22C ’第一區域233具有表面保護層22a、銅層22b與基底層22c,複數第三 區域235具有表面保護層办,而第一區域231之表面保護層咖與第二區 域233及複數第三區域235之表面保護層瓜係一體成形。 關於上述第一區域23卜第二區域233與複數第三區域235之板體結構 所包含層數與材質僅為例示’其可設計為不同之層數與其他材質,並且更可 包含黏合劑層與聚亞胺層等,本發明並不以此為限。 清參閱第5A ®所示’其係揭露本剌第二實侧所減之光職組結 構2b ’本實施例之光源模組結構%如第一實施例所述,惟光賴組結構% 之軟性電路板23係具有第—區域231、第二區域233、複數第三區域235 與第四區域237,其中本實施例之光源模組結構此僅第四區域237異於第 -實施例’目此於第—實施例已揭露之組成,於此不再資述。 第四區域237,連接於第二區域233並朝發光元件21延伸設置且實質 上平行於第-區域231 ’其用以反射發光元件之光線而防止光線散出從而避 免發生光線無法完全投射至面板模組2a之情形。其中,上述第四區域237 係為單層板體’僅包含表面保護層22a,並且與二區域233與複數第三區域 235係為一體成形。 本實施例之複數第三區域235與第四區域237之表面分別能具有第三反 射層232與第四反射層234,如帛SB與冗_示。上述第三反射層加 與第四反射層234係具有反射光線之特性,係能包含··紹、銀、翻、欽、絡、 鉑、把、金、二氧化鈦、二氧化石夕、鈦化紹(A1Nd)或其他耐黃化且财熱之白 色反射漆料及上述材質之任意組合。惟上述材質僅為例示,本發明並不以此 為限。 請參閱第6A與6B圖所示,其係揭露本發明第三實施例所揭露之光源 模組結構2b,本實酬之光賴組結構2b如第—實施例或第二實施例所 201227082 述,惟本實施例之軟性電路板23更具有第五區域239 ^ 第五區域239,連接於第-區域23丨並位於其中_第三區域之η5的側 邊’用以連接連接器27。上述連接器27肖以電性連接其他電子元件(未示 圖),上述電子元件可以為第-實施例所述之面板模組2a,惟上述面板模組 2a僅為例示,本發明並不以此為限。 请參閱第7A圖所不’其係揭露本發明第四實施例所揭露之光源模組結 構3b,其主要係由發光元件31、軟性電路板33與反射罩%所組成。 發光疋件31,用以投射光線,提供面板模組2a顯示影像時所需之光源。 其中發光元件3】係能為發光二極體,然圖示所示之發光元件31的形狀結構 僅為例示’本發明並不以此為限。 軟性電路板33,設有電路佈局並且用以設置發光元件31。 反射罩35,用以反射光線並承載發光元件31與軟性電路板%,具有第 一區域3H、第二區域353與複數第三區域355。 第一區域351 ,其表面用以設置軟性電路板33。 第二區域353,實質上垂直連接於第一區域351。 • 複數第三區域355,分別連接於第二區域353,用以反射發光元件31 之光線。其中,上述第二區域353與第三區域扮之間實質上係互為直角或 鈍角’其之間的設置角度係能依據發光元件31所投射之光線廣度而作調 整。再者,第二區域353與第三區域355原為平面,係利用沖壓方式使第三 區域355突出於平面。此外,每一第三區域355係能連接於另一光源模組結 構3b之第二區域355 ’如第7B圖所示。於本實施例中,上述反射罩%原 本即具有反射光線之功能,藉由設置第三區域355能進一步提升其反射光線 之效果。 另方面,第二區域355之表面能塗佈具有反射光線之特性的漆料(未 201227082 不圖),上述漆料如紹、銀、銷、鈦、鉻、麵、把、金、二氧化欽、二氧化 矽、敍化銘(AINd)或其树黃化且耐熱之白色反射漆料及上述材質之任意組 合。惟上述材質僅為例示,本發明並不以此為限。 根據以上所述’本個麵之光賴減槪提供均自之面光源,光源 模組結構之雛f職與反射罩具权縣狀賴,其巾紐電路板不僅 係用以設置發光元件,並且舰直接形顧以反射光叙複數第三區域與第 四區域。再者,本發明之反射罩能以沖壓方式形成用以反射光線之複數第三 區域’其中上述複鄕三區域能使魏元件之光線均自投射至面板模組,而 第四區域能反射發光元件之光線而防止光線散出從㈣免發生 全投射至面缝組之情形,如此—來,即能避免發光元件之光線的輝度不: 而產生雲紋現象’藉此提升液晶顯示裝置之顯示效果。 此外’於本發明中’用以反射光線之複數第三區域與第四區域係以軟性 電路板或反射罩- 彡成之結構,_無_外增加元件材料, 品之製作成本。 雖然本發_技術内容已經讀佳實施_露如上,離並翻以限定 本發明,任域習此技藝者,在魏離本翻之精神所作些許之更動盘潤 飾’ _蓋於本發·齡内,本發0_護細當 利範圍所狀者騎。 T清寻 201227082 【圖式簡單說明】 $ 1圖為先前技術所揭露之液晶顯示裝置的外觀示意圖。 第2圖為本發明第一實施例所揭露之液晶顯示裝置的外觀示意圖。 第3A與3B圖為本發明第一實施例所揭露之光源模組結構的外觀示意 圖。 第3C圖為本發明第一實施例所揭露之光源模組結構的外觀剖面示意 圖’其令揭示反射罩。 第4A至4E圖為本發明第一實施例所揭露之光源模組結構的軟性電 φ 路板的刮面示意圖。 $ 5A圖為本發明第二實施例所揭露之統模組結構的外觀示意圖。 $ SI—二實細所揭露之光源模組結構的外觀示意 圖’其中揭示第三反射層與第四反射層。 $ 6八與6B ®為本發”三實補賴露之光賴減獅外觀示意 圖。 第7A與7B圖為本發明第四實施例所揭露之光源模組結構的外觀示 意圖。 9 201227082 【主要元件符號說明】 1 ..............液晶顯示器 11 ..............液晶顯示模組 12 .............. 背光模組 121 ..............可撓性電路板 122 ..............光源 124.............. 導光板 2 .............. 液晶顯示裝置 2a .............. 面板模組 2b ..............光源模組結構 22b..............銅層 22c..............基底層 23 ..............軟性電路板 231 .............. 第一區域 232 .............. 第三反射層 233 .............. 第二區域 234 .............. 第四反射層 235 .............. 第三區域 237 .............. 第四區域 239 .............. 第五區域 25 .............. 導光板 籲 27 ..............連接器 29 ..............反射罩 3b .............. 光源模組結構 31 ..............發光元件 33 ..............軟性電路板 35 ..............反射罩 351.............. 第一區域 353 .............. 第二區域 355 .............. 第三區域 10201227082 VI. Description of the Invention: [Technical Field to Be Invented by the Invention] The present invention is a silk module structure of a light job reduction structure, a special difficulty-type new supply (four). [Prior Art] As shown in Fig. 1, the liquid crystal display i is mainly composed of a liquid crystal display module u at the front end and a backlight module 12 at the rear end. The backlight module is used to supply light to the liquid crystal panel. The backlight module and the group 12 include at least a plurality of light sources 122 and a light guide plate 124 disposed on the flexible circuit board 121. The light source m may be a cold cathode lamp or a light emitting diode. body. However, the brightness of the light source 122 is generally higher than that of the light source 122, and the light source 122 is brighter than the light source 122. The upper area between the adjacent two light sources may generate dark lines, so that the rules provided by the backlight module 12 may be uneven, so that the display quality of the shadow crystal display is displayed. According to the above, development of a backlight module which can provide a uniform surface light source without generating a lamp mura is a technology which is desired to be developed in the related industry. SUMMARY OF THE INVENTION In view of the above, the present invention provides a light source module structure, including a light emitting component for projecting light and a flexible circuit board, wherein the flexible circuit board has a first region in which the light emitting component is disposed, and is substantially vertically connected to the first The second region of the region is coupled to the plurality of third regions for reflecting the light of the light emitting elements and respectively connected to the two sides of the second region. The invention also provides a light source module structure, comprising: a light-emitting element for projecting light and a reflector; wherein the reflector has a first region, a second region substantially perpendicularly connected to the first region, and 201227082 for reflecting the light-emitting component The light rays are respectively connected to the plurality of third regions on the two sides of the second region. The light source module structure disclosed in the present invention comprises a plurality of third regions, and the third region is directly formed by a flexible circuit board or a reflective cover to uniformly and uniformly project light to the liquid crystal display panel, thereby providing a uniform light source and avoiding generation of clouds. The pattern phenomenon enhances the display effect of the liquid crystal display device. The detailed features and advantages of the present invention are set forth in the Detailed Description of the Detailed Description of the <RTIgt; </ RTI> <RTIgt; </ RTI> </ RTI> </ RTI> <RTIgt; The objects and advantages associated with the present invention can be readily understood by those skilled in the art. [Embodiment] Referring to Fig. 2, there is disclosed a liquid crystal display device 2 according to a first embodiment of the present invention, wherein an arrow symbol indicates a light projection direction. The liquid crystal display device 2 is mainly composed of a panel module 2a and a light source module structure 2b. The 'panel module 2a can have a thin film transistor array substrate, a liquid crystal layer, an alignment film, a color filter substrate, a common electrode, a polarizer, and a driver integrated circuit. The components of the panel module 2a are not shown. The drawings are only illustrative and the invention is not limited thereto. Referring to FIG. 3A, the light source module structure is mainly composed of a light-emitting element 21, a flexible circuit board 23 and a light guide plate 25. The light guide plate 25 transmits light to the distal end by using the principle of total reflection. The light source module structure 2 may further include other constituent elements such as a printed circuit board (not shown) and a heat sink (not shown). The light-emitting 7C member 21 is for projecting light, thereby providing a light source required for the panel module 2a to display an image. The light-emitting element 21 can be a light-emitting diode. However, the shape of the light-emitting element 21 shown in the figure is merely an example, and the invention is not limited thereto. The flexible circuit board 23 can be roughly divided into a first region 231, a second region 233, and a plurality of third regions 235. 201227082 The first area 231 is provided with a circuit and is used to set the light-emitting element 21. Further, the first region 231 is a plurality of layers, and at least includes a surface protective layer 22a, a copper layer 22b, and a base layer 22c. The first region 233 is substantially perpendicularly connected to the first region 231, and is capable of being a plurality of layers, a surface protection layer 22a, and a copper layer. Or a single-layer board containing only the surface protective layer 22a. The plurality of third regions 235 are single-layered plates, and only include the surface protective layer 22a, and are respectively connected to the two sides of the first region 233 for reflecting the light projected by the light-emitting element 21, so that the light # and the line can be Both hooks are projected onto the light guide plate 25. Secondly, the second region 233 and the third region 235 are substantially at right angles or pure angles, and the angle between them can be adjusted according to the brightness of the light-emitting elements. In addition, each of the third regions MS can be connected to the second region 235 of the other light source module structure as shown in Fig. 3B. On the other hand, the liquid crystal display unit 2 further has a reflector cover 29 for carrying the above-described light source module structure 2b and for reflecting light, as shown in Fig. 3C. The board structure of the first region 231, the second region 233, and the plurality of third regions is as shown in circles 4A to 4E. It is claimed that the first region disclosed in the 4A and the map has a surface protective layer of melon, a copper layer and a base layer, and the second region a3 and the plurality of third regions have a silk surface protective layer 22a' and a first region. The surface protective layer of 231 is integrally formed with the second region 233 and the surface protective layer 22a of the plurality of third regions 235. The first region 231 disclosed in FIGS. 4C and 4D has a surface protective layer and a copper layer fine base layer, and the second region 233 and the plurality of third regions have a surface protective layer 22a / and the second region 233 and the plurality The three-zone 235 is integrally formed, but the second region and the plurality of third regions 235 are additionally disposed on one side of the surface of the surface protective layer of the first region 231. The fourth region 231 has a surface protective layer 22, a copper layer 2 and a base layer 201227082 22C'. The first region 233 has a surface protective layer 22a, a copper layer 22b and a base layer 22c, and the plurality of third regions 235 have The surface protective layer is formed, and the surface protective layer of the first region 231 is integrally formed with the surface protective layer of the second region 233 and the plurality of third regions 235. Regarding the first region 23, the second region 233 and the plurality of third regions 235, the number of layers and materials included in the first region 233 are merely exemplified 'the number of layers and other materials can be designed differently, and the adhesive layer can be further included. The invention is not limited thereto, such as a polyimide layer. For the light source module structure 2b of the present embodiment, as shown in the first embodiment, the soft structure of the light source group structure % is as shown in the fifth embodiment. The circuit board 23 has a first region 231, a second region 233, a plurality of third regions 235 and a fourth region 237, wherein the light source module structure of the embodiment has only the fourth region 237 different from the first embodiment. The composition disclosed in the first embodiment is not described herein. The fourth region 237 is connected to the second region 233 and extends toward the light-emitting element 21 and is substantially parallel to the first-region 231' to reflect the light of the light-emitting element to prevent light from escaping to prevent the light from being completely projected onto the panel. The case of module 2a. Here, the fourth region 237 is a single-layered plate body' including only the surface protective layer 22a, and is integrally formed with the two regions 233 and the plurality of third regions 235. The surfaces of the plurality of third regions 235 and fourth regions 237 of the present embodiment can respectively have a third reflective layer 232 and a fourth reflective layer 234, such as 帛SB and redundancy. The third reflective layer and the fourth reflective layer 234 have the characteristics of reflecting light, and the system can include ·································································· (A1Nd) or other yellow reflective and heat-resistant white reflective paint and any combination of the above materials. However, the above materials are merely examples, and the present invention is not limited thereto. Referring to FIG. 6A and FIG. 6B, the light source module structure 2b disclosed in the third embodiment of the present invention is disclosed. The preferred embodiment of the light source module structure 2b is as described in the first embodiment or the second embodiment 201227082. However, the flexible circuit board 23 of the present embodiment further has a fifth region 239 ^ fifth region 239 connected to the first region 23 丨 and located at the side _ of the η 5 of the third region for connecting the connector 27. The connector 27 is electrically connected to other electronic components (not shown). The electronic component may be the panel module 2a of the first embodiment. However, the panel module 2a is merely an example, and the present invention does not This is limited. Referring to FIG. 7A, a light source module structure 3b according to a fourth embodiment of the present invention is disclosed. The light source module structure 3b is mainly composed of a light-emitting element 31, a flexible circuit board 33 and a reflector cover. The light-emitting element 31 is for projecting light, and provides a light source required for the panel module 2a to display an image. The light-emitting element 3 can be a light-emitting diode, and the shape and structure of the light-emitting element 31 shown in the figure is merely exemplary. The present invention is not limited thereto. The flexible circuit board 33 is provided with a circuit layout and is used to provide the light-emitting elements 31. The reflector 35 is for reflecting light and carrying the light-emitting element 31 and the flexible circuit board %, and has a first region 3H, a second region 353 and a plurality of third regions 355. The first region 351 has a surface for providing a flexible circuit board 33. The second region 353 is substantially vertically connected to the first region 351. • A plurality of third regions 355 are respectively connected to the second region 353 for reflecting the light of the light-emitting element 31. The angle between the second region 353 and the third region is substantially at right angles or obtuse angles. The angle between the two regions 353 and the third region can be adjusted according to the brightness of the light projected by the light-emitting element 31. Further, the second region 353 and the third region 355 are originally flat, and the third region 355 is protruded from the plane by punching. In addition, each of the third regions 355 can be connected to the second region 355' of the other light source module structure 3b as shown in Fig. 7B. In the embodiment, the reflector cover has the function of reflecting light, and the third region 355 can further enhance the effect of reflecting light. On the other hand, the surface of the second region 355 can be coated with a paint having the characteristics of reflecting light (not shown in 201227082), and the above paints such as Shao, silver, pin, titanium, chromium, surface, handle, gold, and dioxide , cerium oxide, AINd or its tree yellowing and heat-resistant white reflective paint and any combination of the above materials. However, the above materials are merely illustrative, and the invention is not limited thereto. According to the above description, the light source of the light source module is provided by the light source, and the structure of the light source module is the same as that of the reflective cover. The towel circuit board is not only used to set the light-emitting elements. And the ship directly looks at the third and fourth regions of the complex number with reflected light. Furthermore, the reflector of the present invention can form a plurality of third regions for reflecting light in a stamping manner, wherein the above-mentioned three-resection region enables the light of the Wei component to be self-projected to the panel module, and the fourth region can reflect the light. The light of the component prevents the light from escaping from (4) the case of full projection to the surface seam group, so that the brightness of the light of the light-emitting element can be avoided: the moiré phenomenon is generated, thereby improving the display of the liquid crystal display device effect. Further, in the present invention, the third region and the fourth region for reflecting light are structured by a flexible circuit board or a reflector, and the component material is added to the production cost. Although the present _ technical content has been read better implementation _ as above, away from and to limit the invention, the domain of this art, in the spirit of Wei from the spirit of the turn of the change, the retouching ' _ cover in the hair Inside, this hair 0_ guards the fineness of the range of people who ride. T清寻 201227082 [Simple description of the drawing] $1 is a schematic view of the appearance of the liquid crystal display device disclosed in the prior art. FIG. 2 is a schematic diagram of the appearance of a liquid crystal display device according to a first embodiment of the present invention. 3A and 3B are schematic views showing the appearance of a light source module structure according to a first embodiment of the present invention. Fig. 3C is a schematic cross-sectional view showing the structure of a light source module according to a first embodiment of the present invention. 4A to 4E are schematic views showing the scraping surface of the flexible electric φ board of the light source module structure according to the first embodiment of the present invention. FIG. 5 is a schematic diagram showing the appearance of the unified module structure disclosed in the second embodiment of the present invention. $SI—The appearance of the light source module structure disclosed in the second embodiment shows the third reflective layer and the fourth reflective layer. $6八和六B® is a schematic diagram of the appearance of the light-reducing lion of the third embodiment of the present invention. Figures 7A and 7B are schematic views showing the structure of the light source module disclosed in the fourth embodiment of the present invention. Description of component symbols] 1 ..............Liquid crystal display 11 ..............Liquid crystal display module 12 ......... ..... backlight module 121 ..............flexible circuit board 122 ..............light source 124..... ......... Light guide plate 2 .............. Liquid crystal display device 2a .............. Panel module 2b .. ............light source module structure 22b..............copper layer 22c..............base layer 23 ..............Soft Board 231 .............. First Area 232 ............. Third reflective layer 233 .............. Second region 234 .............. Fourth reflective layer 235 ....... ....... Third Area 237 .............. Fourth Area 239 .............. Fifth Area 25 ... ........... Light guide plate 27 .............. Connector 29 .............. Reflector 3b. ............. Light source module structure 31 ..............Lighting element 33 ..............soft Circuit Plate 35 ..............Reflection cover 351.............. First area 353 ............. Second area 355 .............. Third area 10