201106048 四、指定代表圖: (一)本案指定代表圖為 (一)本代表圖之元件^ 第(六)圖A。 簡單說明: 發光元件 403 支撑結構 41 支撐結構及電路板組合45 容置槽 411 第四導接部 413 蓋體 415 請揭示最能顯示發明特徵的化學& 六、發明說明: 【發明所屬之技術領域】201106048 IV. Designated representative map: (1) The representative representative figure of this case is (1) the component of the representative figure ^ (6) Figure A. Brief Description: Light-emitting element 403 Support structure 41 Support structure and circuit board assembly 45 accommodating groove 411 Fourth guiding portion 413 Cover 415 Please disclose the chemical & which can best show the characteristics of the invention. 6. Description of the invention: field】
發光板件組合 40 透明板件 401 線路 402 電路板 42 透光型顯示模組 4 第一表面 4011 五、本案若有化學式時 本案係關於一種透光型顯示模組及其支撐結構 路板組合,尤指一種包含發光二極體(LED)之透光型_ 組及其支撐結構及電路板組合。 【先前技術】 隨著科技的進步’如發光二極體等發光元件已普遍應 用於照明設備或如廣告看板等顯示裝置。而為了達到較佳 的宣傳效果’此類廣告看板常設置於建築物之外牆、屋了貝 或玻璃帷幕,然而,現有用以承載發光二極體之板件主要 為電路板,由於電路板無法透光,因此若設置於建築物之 201106048 玻璃帷幕上時,會影響玻璃帷幕的透光性及採光效果,為 了克服相關問題,將發光二極體設置於透明材質上之技術 便因應而生。 5奮參閱第一圖,其係為習知透光型顯示裝置之結構示 意圖。如第一圖所示,習知透光型顯示裝置1包括發光板 件組合10及電路板12,發光板件組合10具有透明板件 1〇1、複數條線路1〇2及複數個發光二極體1〇3,其中發光 一極體103係與線路1〇2電性連接,而為了讓發光板件組 10 oa * 电塔板12此兩獨立板件可彼此結構連接及電性連 接’透光型顯示m更包括複數個連接軟板11,其兩端 係刀別與線路102和電路板I2電性連接,而控制裝置及電 源供應裝置(未㈣)再與電路板12連接並透過連接軟板n ”複數個線路102相連,俾提供發光二極體阳所需之電 力並控制發光—極體103之開關,使透光型顯示裝置1可 '貝丁預&的圖案或文字。由於連接軟板11係為軟性材質, 故可配合需求加以響j <折而隱藏’以避免影響透明板件101 的透光效果。 ^❿此f知之透光型顯示裝置卜必須將複數個連接 =且裝於線路102 ’再逐一與電路板12相連, 接軟板L 有拆解維修不便之困擾,且由於連 未能確實連接線路:02.=脫’-旦任-連接軟板11 一 及電路板,便可能無法驅動發光 *而:響透光型顯示m之顯示效果。此外, &透7^顯μ置1之連接軟板u數量眾多,不但整理 201106048 不易,且若無法妥當整收而隱藏時,亦有影響透光型顯示 裝置1之整體外觀及干擾透明板件101的透光效果之虞。 又習知透光型顯示裴置1固然可擴充多組發光板件組合 10,然其係以單一電源供應裝置(未圖示)供應整個透光塑 顯示裝置1所需之電力,是以設置於遠離電源供應裝置的 發光板件組合10便會因供電路徑較長而產生較大的損 耗,進而降低透光型顯示裝置1的整體亮度。 有鑑於此,如何發展一種透光型顯示模組及其支樓結 構及電路板組合’俾克服習知技術之諸多缺失,實為相關 技術領域者目前所迫切需要解決之問題。 【發明内容】 本案之主要目的為提供一種透光型顯示模組及其支 樓結構及電路板組合,其中透光型顯示模組之發光板件組 合的線路係於透明板件上直接匯集形成第一導接部,電路 板係設置於支撐結構上以構成一支撐結構及電路板組合, 且電路板設有第二導接部,而發光板件組合之第一導接部 係於發光板件組合設置於支撐結構上時直接或間接地與電 路板之第二導接部電性連接,以避免習知使用連接軟板連 接電路板及發光板件組合之種種不便。此外,當本案之透 光型顯示模組擴充多組發光板件組合時,更可因應配置多 個電源供應裝置’俾利用鄰近於每一發光板件組合之對應 的電源供應裝置來進行供電,以縮短供電路徑,進而減低 習知因使用單一電源供應裝置而拉長供電路徑所造成的損 201106048 耗,以避免影響透光蜇顯示模組之整體亮度。 為達上述目的,本案之一較廣實施態樣為提供一種透 光型顯示模組,其係包括.至發光板件組合,每一该發 光板件組合包括:一透明板件;複數個線路,其係設置於透 明板件上’並於透明板件上匯集形成至少一第一導接部; 複數個發光元件,其係設置於透明板件上並與複數個線路 電性連接;一支撐結構’其係用以支撐發光板件組合;以 及至少一電路板,其係設置於支撐結構上,且每一電路板 包括至少一第二導接部;其中’發光板件組合之第一導接 部係藉由發光板件組合設置於支撐結構上而與電路板之第 二導接部電性連接。 根據本案之構想,其中電路板之第二導接部係為金手 指,而發光板件祖合之第一導接部係為金手指插接座,俾 使第一導接部於發光板件組合設置於支撐結構上時直接與 第二導接部對接而電性連接。 根據本案之構想,其中發光板件組合之第一導接部及 電路板之第二導接部係為相互對應之導電片,俾使第一導 接部於發光板件組合設置於支撐結構上時直接接觸第二導 接部而電性連接。 根據本案之構想,其中發光板件組合之第一導接部係 為導電片’而電路板之第二導接部係為金手指。 根據本案之構想,其中支撐結構更包括:一容置槽,其 係用以容置部分之發光板件組合;至少一第三導接部其 係鄰近於容置槽並對應於發光板件組合之第一導接部設 201106048 置;以及至少一第四導接部,其係一體成型地設置於支撐 結構上且對應於電路板之第二導接部,並透過埋設於支撐 結構中之導電路徑與第三導接部電性連接。 根據本案之構想,其中支撐結構之第四導接部係為金 手指插接座’俾對應容置電路板之第二導接部並與第二導 接部電性連接。 根據本案之構想,其中支撐結構之第三導接部係為導 _ 電引腳,俾使發光板件組合之第一導接部於發光板件組合 部分設置於支撐結構之容置槽中時與第三導接部接觸,並 透過導電路徑及第四導接部而與電路板之第二導接部電性 連接。 根據本案之構想,其中支撐結構更包括蓋體,其係覆 蓋發光板件組合之第一導接部與支撐結構之第三導接部。 根據本案之構想,其中透光型顯示模組更包括至少一 電源供應裝置及一控制裝置,其係與電路板電性連接,而 • 當透光型顯示模組包括複數個發光板件組合及複數個電源 供應裝置時,每一發光板件組合之複數個發光元件係由鄰 近該發光板件組合之對應的電源供應裝置進行供電。 根據本案之構想,其中透明板件係選自玻璃、石英玻 璃、軟性玻璃所組成之群體之一。 根據本案之構想’其中複數個線路係以導電膠藉由印 刷熱烘或塗佈燒結而固設於透明板件上,導電膠可為金屬 及非金屬複合材質,而金屬係選自銀、銅或把所組成之群 體之一。 201106048 根據本案之構想,其中複數個發光元件係為複數個發 光二極體。 根據本案之構想,其中發光板件組合之透明板件包括 相對應之第一、第二表面,複數個線路及複數個發光元件 係設置於第一表面及/或第二表面上。 為達上述目的,本案之另一較廣實施態樣為提供一種 支撐結構及電路板組合’其係應用於透光型顯示模組,透 光型顯示模組包括具有至少一第一導接部之一發光板件組 合’而支樓結構及電路板組合包括:一支樓纟士構,其係用 以支撐發光板件組合;以及至少一電路板,其係設置於支 撐結構上,且每一電路板包括至少一第二導接部;其中, 發光板件組合之第一導接部係藉由發光板件組合設置於支 撐結構上而與電路板之第二導接部電性連接。 【實施方式】 體現本案特徵與優點的一些典型實施例將在後段的 说明中詳細敘述。應理解的是本案能夠在不同的態樣上具 有各種的變化,其皆不脫離本案的範圍,且其中的說明及 圖示在本質上係當作說明之用,而非用以限制本案。 本案之透光型顯示模組可設置於例如建築物之玻璃 帷幕、外牆或屋頂等處,並藉由其具備的顯示效果而達到 旦傳、告示之目的,是以可用作廣告看板或跑馬燈等,但 不以此為限。 請參閱第二圖A,其係為本案第一較佳實施例之透光 201106048 型顯示模組之部分結構示意圖。如第二圖A所示,本實施 例之透光型顯示模組2包栝立少一發光板件組合20、一支 撐結構21及至少一電路板22,每一發光板件組合20又具 有透明板件2〇 1及設置於透明板件201上的複數個線路202 與複數個發光元件203,其中發光元件203係與線路202 電性連接’而線路202則於透明板件2〇1上匯集形成至少 一第一導接部204。支撐結構21係用以承載並支撐每一個 發光板件組合20,至於電路板22則可設置於支撐結構21 ® 上以與支樓結構21共同組成一支稽結構及電路板組合 25,且每一電路板22包括至少一第二導接部221,其中, 發光板件組合20之第一導接部204可透過發光板件組合 20設置於支撐結構21上而與電路板22之第二導接部221 電性連接’以達成電路板22及發光板件組合20之間彼此 電連接之目的。為了清楚說明透光型顯示模組2之結構, 第二圖A僅圖示出部分的發光板件組合2〇、支撐結構21 • 及電路板22 ’然而應可理解,於應用時,透光型顯示模組 2可選擇性地擴充複數個發光板件組合2〇及對應之複數個 電路板22。以下將進一步敘述本實施例之透光型顯示模組 2的細部結構。 請再參閱第二圖A ’透光型顯示模組2之發光板件組 合20的透明板件201係選自散熱效果良好的可透光材質, 例如:玻璃、石英玻璃或軟性玻璃等所組成之群體之一,而 尺寸係以大於15平方公分為佳,但不以此為限,且透明板 件201具有相互對應且實質上大致平行之第一表面2〇11和 201106048 第二表面2012。於本實施例中,透明板件2〇1之第一表面 2011上設置有複數個線路202,例如:導電線路及訊號線路 等,其可為由導電膠透過印刷熱烘或塗佈燒結之方式而固 &史於透明板件201之第一表面2011上者,其中導電膠可選 用奈米尺度之多種含金屬及非金屬經特殊配方所製成的複 合材質,而金屬可選自銀、銅或把等。舉例而言,欲於透 明板件201上形成線路2〇2時,可先將導電膠朝透明板件 201之邊緣以放射狀平行並列或交錯之形式,利用網板印 刷形成於透明板件201之第一表面2011上,再以加熱及烘 烤固定或燒結等方式使導電膠固設在透明板件2〇1的第一 表面2011上而構成線路2〇2,其中當利用燒結方式形成線 路202時’燒結之溫度實質上係以2〇〇。〇_5〇〇。(:為佳,但不 以此為限。此外’線路202於透明板件201上匯集形成至 少一第一導接部204 ’於本實施例中,第一導接部204係 以設置於透明板件201之第一表面2011上並位於透明板件 201之邊緣為佳,其可具有一開口 2042 (如第二圖B所示), 開口 2042之方向實質上可垂直於透明板件2〇1之第一表面 2011,而用以導接的複數個第一導電結構2041,例如:以金 屬材質製成之導電彈片、導電片或導電凸點等,則可設置 於開口 2042中,換言之,發光板件組合2〇之第一導接部 204可為一插接座,俾與電路板22之第二導接部221相互 對應。 而透明板件201之第一表面2011上除了線路2〇2外, 尚設有複數個發光元件203,其中發光元件203係以發光 201106048 二極體為佳,其可如第三圖A所示,採用表面黏著型(謝) 發光二極體203a並利用如透明黏著劑等黏著介質(未圖示) 黏著於透明板件2〇1之第-表面薦上,並透過如焊接7"等 方式將表面黏著型發光二極體廳之金線2〇31與線路2〇2 電性連接;或如第三圖B所示,將未經封裝之發光 晶片203b直接設置於透明板件2〇1的第—表面2〇ιι上, 且同樣利用金線臟電連接發光二極體晶片雇與線路 搬,再於第-表面2011上設置透明的封裝層則加以覆 蓋發光二極體晶片203b、金線2031和線路2〇2;當然亦 可以覆晶(flip chip)接合方式將發光二極體晶片纖透過 焊料2032直接與線路202電性連接(如第三圖c所示),換 言之,發光二極體之選用並無所設限。此外,為了提升透 光型顯示模組2的亮度,於某些實施例中,亦可選擇性地 同時於透明板件201的第一、第二表面2〇n、2〇12上配置 線路202及發光元件203,舉例而言:如第三圖〇所示, • 透明板件201之第二表面2012上的表面黏著型發光二極體 203a係以金線2031與第二表面2012上的線路202電性連 接’且表面黏著型發光二極體203a’之光源投射方向d,實質 上與設置於第一表面2011上之表面黏著型發光二極體 203a之光源投射方向d相同,亦即表面黏著型發光二極體 203a’係朝透明板件201之第一表面2011發光,俾藉由增 加單位面積的發光元件203密度而提高亮度。當然,發光 元件203亦可視需求而選擇性地單獨設置於透明板件2〇1 的第二表面2012上,其並不至於影響本案之實施。 11 201106048 請再參閱第二圖A,透光型顯示模組2除了發光板件 組合20外,尚包括支撐結構21及電路板22所共組之支撐 結構及電路板組合25,其中,支撐結構21除可用以承載 支撑並固定發光板件組合2〇外,亦可供電路板22設置於 其上,且支撐結構21具有透光區域21〇。至於電路板22 則可為用以驅動控制發光元件2〇3之邏輯控制電路板,且 每一電路板22包括至少一第二導接部221,於本實施例 中,第二導接部221可設置於電路板22之邊緣,且數量、 位置及形式實質上係以對應於發光板件組合2〇之第一導φ 接部204為佳.舉例而言:本實施例之電路板22可具有凸 塊2212其係自電路板22的邊緣平行延伸而出(如第二圖 B所不)’而用以導接的複數個第二導電結構2211,例如: 金屬導電片,則平貼設置於凸塊2212上,以組成本實施例 之第一導接部221,換言之,本實施例之電路板22的第二 導接I5 21係以金手指為佳,而由於發光板件組合之第 :導接部204係與電路板22之第二導接部221彼此對應,# 是以可第一導接部204實質上可為金手指插接座。 而當發光板件組合20、支撐結構21及電路板22欲加 以組配時,可將電路板22利用鎖固、黏著、卡合或夾持等 方式设置於支撐結構21之預定位置上,以構成支撐結構及 電路板組合25,再將發光板件組合2〇與支撐結構及電路 板組合25相組配’其中發光板件組合20之發光元件203 的光源投射方向d可朝向支撐結構21的透光區域210(如第 〜圖A所不)’此時電路板22之第二導接部221,例如:金 12 201106048 手指,係對應於透明板件201之第一表面2011上之第一導 接部204,例如:金手指插接座,是以當發光板件組合20利 用鎖固、黏著、卡固、夾持、鉗合或鑲嵌等方式設置於支 撐結構21上的同時,固定在支撐結構21上的電路板22其 第二導接部221可直接插植並容置於發光板件組合20之第 一導接部204的開口 2042中,且第二導接部221之第二導 電結構2211係與開口 2042内的第一導電結構2041相互觸 碰,亦即金手指可與金手指插接座直接對接’由此可知’ 馨發光板件組合20之第〆導接部204可藉由發光板件組合 20固設於支樓結構21上而直接與電路板22之第二導接部 221電性連接,進而遠成電連接發光板件組合20與電路板 22之目的。 請再參閱第二圖A並配合第四圖A’其中第四圖A係 為發光板件組合與電源供應裝置及控制裝置之配置示意 圖。為了控制透光型顯系模組2並供應其所需電力’透光 鲁型顯示模組2更可包括炱少一電源供應裝置23及控制裝置 24,其中電源供應裝f 23和控制裝置24分別可透過第一 導線231及第二導線241與電路板22電性連接’又由於電 路板22係與發光板件银合20電性連接’故可藉此提供發 光板件組合20上之發光元件203所需之電力並控制發光元 件203的開關’至於第〆、第二導線231、241之態樣並無 所設限,其可為電源線或匯流排線’但不以此為限。此外’ 如前所述,由於透光^顯示模組2可擴充多組發光板件組 合20,例如:第一發光板件組合2〇a、第二發光板件组合 13 201106048 2〇b.......至第n發光板件組合20n ’是以可配合增設對應 數目之多組電源供應裝置23,例如:第一電源供應裝置 23a、第二電源供應裝置23b.......至第11電源供應裝置 23η ’並以鄰近發光板件組合20之對應的電源、供應裝置23 來進行供電。舉例而言,請參閱第四圖Β,其係為本案一 較佳實施例之透光型顯示模組及其電源供應裴置與控制裝 置之結構示意圖。如第四圖Β所示’透光型顯示模組2可 包括弟·一、弟一發光板件組合20a、20b及第一、第二電源 供應裝置23a、23b,其中第一、第二發光板件組合2〇a、 20b係固設於支擇結構21上,並同時經電路板22、第二導 線241而受控於控制裝置24,此外,第一電源供應裝置23a 係鄰近於第一發光板件組合20a設置,並透過第一導線231 及與第一發光板件組合20a電連接之電路板22來供應第一 發光板件組合20a之發光元件2〇3所需的電力,而第二電 源供應裝置23b則鄰近於第二發光板件組合2沘設置,是 以第二電源供應裝置23b同樣可透過第一導線231及與第 二發光板件組合2Gb電連接之電路板22來供應第二發光板 件組合20b之發光元件2〇3所需的電力,是以可縮短第一 導線231的長度,亦即縮短供電路徑,藉此減少損耗並避 免透光型顯㈣組2的整體亮度受㈣響。當然,透光型 顯示模組2亦可橫向或縱向地擴充多組發光板件組合2〇, 此時僅需因應調整電源供應裳置23的數量及配置位置,便 可利用複數個電源供應裝置23^ , θ 衣夏刀放致電而使透光型顯示 模組2維持預定亮度。 201106048 相較於習知技術,由於本實施例係將電路板22和支 撐結構21模組化配置成支撐結構及電路板組合25,又電 路板22之第二導接部221與發光板件組合20之第一導接 部204係相互對應,因此當發光板件組合20配置在支撐結 構21上的同時,其第一導接部204可直接與設置在支撐結 構21上之電路板22的第二導接部221對接,俾於單一步 驟完成發光板件組合20和支撐結構21之結合及發光板件 組合20與電路板22的電性連接,以避免習知必須透過連 • 接軟板11逐一連接線路102及電路板12之繁瑣的組裝步 驟,且應可理解,本實施例之組裝相較於習知結構更為簡 便,因此亦有便於維修之利;又由於本實施例之電路板22 係設置於支撐結構21上,且發光板件組合20之第一導接 部204可直接與電路板22之第二導接部221對接而電性連 换,因此可省略習知連接軟板11的使用,不但有利於降低 製作成本’亦可防止因連接軟板11或電路板12容收不當 而對透明板件101之透光性造成的負面影響。再者,由於 # 發光板件組合20必須與支撐結構21緊密結合以防止脫 落,是以第一、第二導接部2〇4、221之間亦可藉此強化其 速結強度而避免鬆脫。 當然’本案並不限於上述實施態樣,請參閱第五圖, 其係為本案第二較佳實施例之透光型顯示模組的結構示意 圖。如第五圖所示,透光型顯示模組3包括發光板件組合 3〇及由支撐結構31和電路板32所共組成的支撐結構及電 賂板組合35,其中發光板件組合30之透明板件3〇1、線路 15 201106048 302和發光元件303之設置方式大致與本案第二圖A所示 之第一較佳實施例相似,此外,線路302同樣係於透明板 件301上匯集形成炱少一第一導接部304,且第一導接部 304實質上係以靠近透明板件3〇 1之邊緣為佳’惟本實施 例中,第一導接部304係為平貼於透明板件301之第一表 面3011設置的複數個導電片,例如:金屬導電片’而電路 板32實質上係平行於透明板件301地固設於支撐結構31 上,且電路板32同樣包括第二導接部321,為配合透明板 件301之第一表面3011上的第一導接部304,本實施例之 第二導接部321亦可為複數個設置於電路板32表面之導電 片’例如:金屬導電片,其中第二導接部321之數量、位置 皆對應於第一導接部304,是以應可理解,發光板件組合 30之第一導接部304可利用發光板件組合3〇固設於支樓 結構31上而與設置於支撐結構31上之電路板32的第二導 接部321直接接觸而電性連接,並利用發光板件組合30與 支偉結構31之間緊配結合的力量而穩固的彼此抵頂接 =,使電路板32和發光板件組合3〇得以確實電性連接。 田然,第一、第二導接部304、321除可為金屬導電片外, 於某些實施例中亦可選用導電凸點(未圖示)或導電弹片等 相互配合’俾提升第—、第二導接部3〇4、321之間的抵頂 接觸效果’使第-、第二導接部3〇4、321之間得以罐實電 性連接。Light-emitting panel assembly 40 Transparent panel 401 Line 402 Circuit board 42 Light-transmitting display module 4 First surface 4011 V. In the case of chemical formula, the case relates to a light-transmitting display module and a supporting structure road board combination thereof. In particular, a light-transmissive type group comprising a light-emitting diode (LED) and a support structure and a circuit board combination thereof. [Prior Art] With the advancement of technology, light-emitting elements such as light-emitting diodes have been commonly applied to lighting devices or display devices such as billboards. In order to achieve better publicity effect, such advertising billboards are permanently placed on the outer wall of the building, the shell or the glass curtain. However, the existing panels for carrying the light-emitting diodes are mainly circuit boards, due to the circuit board. It can't transmit light, so if it is installed on the 201106048 glass curtain of the building, it will affect the light transmittance and lighting effect of the glass curtain. In order to overcome the related problems, the technology of setting the light-emitting diode on the transparent material will be born. . 5 refers to the first figure, which is a structural schematic of a conventional light-transmitting display device. As shown in the first figure, the conventional light-transmitting display device 1 includes a light-emitting panel assembly 10 and a circuit board 12. The light-emitting panel assembly 10 has a transparent panel member 1, a plurality of lines 1〇2, and a plurality of light-emitting diodes. The pole body 1〇3, wherein the light-emitting body 103 is electrically connected to the line 1〇2, and in order to allow the light-emitting board group 10 oa* the electric board 12, the two independent boards can be structurally connected and electrically connected to each other' The light-transmitting display m further includes a plurality of connecting flexible boards 11, the two ends of which are electrically connected to the circuit 102 and the circuit board I2, and the control device and the power supply device (not (4)) are connected to the circuit board 12 and transmitted through Connecting the flexible board n"" a plurality of lines 102 are connected, providing the power required for the light-emitting diodes and controlling the switching of the light-emitting body 103, so that the light-transmitting display device 1 can be 'Bettling' & pattern or text Since the connecting flexible board 11 is made of a soft material, it can be combined with the demand to be j<folded and hidden' to avoid affecting the light transmission effect of the transparent plate member 101. ^ This light-transmitting display device must be plural Connections = and mounted on line 102' are connected to circuit board 12 one by one. The soft board L has the trouble of disassembly and maintenance inconvenience, and since the connection cannot be reliably connected: 02.=脱''''''''''' The display effect of m is displayed. In addition, there are a large number of connected flexible boards u that are transparent to the 1^, and it is not easy to organize 201106048, and if it is not properly concealed, it also affects the light-transmitting display device 1. The overall appearance and interference with the light transmission effect of the transparent plate member 101. It is also known that the light transmission type display device 1 can expand the plurality of groups of the light plate assembly 10, which is supplied by a single power supply device (not shown). The power required for the entire transparent plastic display device 1 is such that the light-emitting panel assembly 10 disposed far away from the power supply device causes a large loss due to a long power supply path, thereby reducing the overall thickness of the light-transmitting display device 1. In view of this, how to develop a light-transmitting display module and its branch structure and circuit board combination 'to overcome many of the shortcomings of the prior art is a problem that is urgently needed to be solved by the related art. content The main purpose of the present invention is to provide a light-transmitting display module and its branch structure and circuit board combination, wherein the light-emitting panel assembly of the light-transmitting display module is directly combined on the transparent plate to form a first guide. a connecting portion, the circuit board is disposed on the supporting structure to form a supporting structure and a circuit board combination, and the circuit board is provided with a second guiding portion, and the first guiding portion of the combination of the illuminating panel members is disposed in the combination of the illuminating panel members When the support structure is directly or indirectly connected to the second guiding portion of the circuit board, the inconvenience of using the connecting flexible board to connect the circuit board and the illuminating board assembly is avoided. When the display module expands the combination of multiple sets of illuminating panels, it is also possible to configure a plurality of power supply devices to provide power by using corresponding power supply devices adjacent to each illuminating panel assembly to shorten the power supply path and thereby reduce the Knowing that the loss of 201106048 caused by the power supply path is extended by using a single power supply device to avoid affecting the overall brightness of the light-transmissive display module. In order to achieve the above object, a wider aspect of the present invention provides a light-transmitting display module comprising: a combination of light-emitting panels, each of the light-emitting panel assemblies comprising: a transparent panel; a plurality of lines , the system is disposed on the transparent plate member and is formed on the transparent plate member to form at least one first guiding portion; a plurality of light-emitting elements are disposed on the transparent plate member and electrically connected to the plurality of lines; a structure for supporting a combination of light-emitting panel members; and at least one circuit board disposed on the support structure, and each of the circuit boards includes at least one second guiding portion; wherein the first guide of the combination of the light-emitting panel members The connecting portion is electrically connected to the second guiding portion of the circuit board by being assembled on the supporting structure by the illuminating plate member. According to the concept of the present invention, the second guiding portion of the circuit board is a gold finger, and the first guiding portion of the illuminating plate member is a gold finger insertion seat, so that the first guiding portion is on the illuminating plate member. When assembled on the support structure, the two directly connected portions are directly connected to each other and electrically connected. According to the concept of the present invention, the first guiding portion of the illuminating panel assembly and the second guiding portion of the circuit board are mutually corresponding conductive sheets, so that the first guiding portion is disposed on the supporting structure in combination with the illuminating panel member. When it is in direct contact with the second guiding portion, it is electrically connected. According to the concept of the present invention, the first guiding portion of the combination of the illuminating panel members is a conductive sheet ′ and the second guiding portion of the circuit board is a gold finger. According to the concept of the present invention, the supporting structure further includes: a receiving groove for accommodating a portion of the illuminating plate member combination; at least one third guiding portion adjacent to the accommodating groove and corresponding to the illuminating plate member combination The first guiding portion is provided with the 201106048; and the at least one fourth guiding portion is integrally formed on the supporting structure and corresponds to the second guiding portion of the circuit board, and is electrically conductive through the embedded in the supporting structure. The path is electrically connected to the third guiding portion. According to the concept of the present invention, the fourth guiding portion of the supporting structure is a gold finger socket 俾 corresponding to the second guiding portion of the accommodating circuit board and electrically connected to the second guiding portion. According to the concept of the present invention, the third guiding portion of the supporting structure is a conductive pin, so that the first guiding portion of the combination of the illuminating plate members is disposed in the accommodating groove of the supporting structure when the illuminating plate member combination portion is disposed. The third guiding portion is in contact with the third guiding portion, and is electrically connected to the second guiding portion of the circuit board through the conductive path and the fourth guiding portion. According to the concept of the present invention, the supporting structure further comprises a cover covering the first guiding portion of the combination of the illuminating plate member and the third guiding portion of the supporting structure. According to the concept of the present invention, the light-transmitting display module further includes at least one power supply device and a control device electrically connected to the circuit board, and • the light-transmitting display module includes a plurality of light-emitting panel assemblies and In the case of a plurality of power supply devices, the plurality of light-emitting elements combined with each of the light-emitting panel members are powered by a corresponding power supply device adjacent to the combination of the light-emitting panel members. According to the concept of the present invention, the transparent plate member is selected from the group consisting of glass, quartz glass, and soft glass. According to the concept of the present invention, a plurality of circuits are fixed on the transparent plate by conductive baking or coating sintering, and the conductive adhesive can be a metal and a non-metal composite material, and the metal is selected from the group consisting of silver and copper. Or put one of the groups formed. According to the concept of the present invention, a plurality of light-emitting elements are a plurality of light-emitting diodes. According to the concept of the present invention, the transparent plate member in which the illuminating plate member is combined includes the corresponding first and second surfaces, and the plurality of wires and the plurality of illuminating members are disposed on the first surface and/or the second surface. In order to achieve the above object, another broad aspect of the present invention provides a support structure and a circuit board assembly, which is applied to a light transmissive display module, and the light transmissive display module includes at least one first guide portion. One of the illuminating panel assembly's and the branch structure and the circuit board combination include: a floor gentleman structure for supporting the illuminating panel assembly; and at least one circuit board disposed on the support structure, and each The circuit board includes at least one second guiding portion; wherein the first guiding portion of the illuminating panel member is electrically connected to the second guiding portion of the circuit board by the illuminating panel member being combined on the supporting structure. [Embodiment] Some exemplary embodiments embodying the features and advantages of the present invention will be described in detail in the following description. It is to be understood that the present invention is capable of various modifications in the various aspects of the present invention, and the description and illustration are in the nature of The light-transmissive display module of the present invention can be disposed on, for example, a glass curtain, an outer wall or a roof of a building, and has the purpose of displaying and effecting the display effect, and can be used as an advertising billboard or Marquee, etc., but not limited to this. Please refer to FIG. 2A, which is a partial structural diagram of a light-transmissive 201106048 type display module according to a first preferred embodiment of the present invention. As shown in FIG. 2A, the light-transmitting display module 2 of the present embodiment includes a light-emitting panel assembly 20, a support structure 21 and at least one circuit board 22, and each of the light-emitting panel assemblies 20 has The transparent plate member 2〇1 and the plurality of lines 202 and the plurality of light-emitting elements 203 disposed on the transparent plate member 201, wherein the light-emitting element 203 is electrically connected to the line 202 and the line 202 is disposed on the transparent plate member 2〇1. The collection forms at least one first guiding portion 204. The support structure 21 is used to support and support each of the light-emitting panel assemblies 20, and the circuit board 22 can be disposed on the support structure 21 ® to form a stack structure and circuit board assembly 25 together with the branch structure 21, and each A circuit board 22 includes at least one second guiding portion 221, wherein the first guiding portion 204 of the illuminating panel assembly 20 is disposed on the supporting structure 21 through the illuminating panel assembly 20 and the second guiding portion of the circuit board 22 The connecting portion 221 is electrically connected to achieve the purpose of electrically connecting the circuit board 22 and the light emitting panel assembly 20 to each other. In order to clearly explain the structure of the light-transmitting display module 2, the second figure A only shows a part of the light-emitting panel assembly 2, the support structure 21 and the circuit board 22', however, it should be understood that, in application, light transmission The display module 2 can selectively expand a plurality of illuminating panel assemblies 2 〇 and a corresponding plurality of circuit boards 22 . The detailed structure of the light-transmitting display module 2 of the present embodiment will be further described below. Please refer to the second figure A. The transparent plate member 201 of the light-emitting panel assembly 20 of the light-transmitting display module 2 is selected from a light-transmitting material with good heat dissipation effect, such as glass, quartz glass or soft glass. One of the groups, and the size is preferably greater than 15 square centimeters, but not limited thereto, and the transparent plate member 201 has first surfaces 2〇11 and 201106048 second surfaces 2012 that correspond to each other and are substantially parallel. In this embodiment, the first surface 2011 of the transparent plate member 211 is provided with a plurality of lines 202, such as conductive lines and signal lines, etc., which may be formed by conductive baking or coating sintering by conductive adhesive. And the solid & history on the first surface of the transparent plate 201 2011, wherein the conductive adhesive can be selected from a variety of metal-based and non-metallic composite materials made of special specifications, and the metal can be selected from silver, Copper or put it. For example, when the line 2〇2 is to be formed on the transparent plate member 201, the conductive adhesive may be formed on the transparent plate member 201 by screen printing in the form of radially parallel juxtaposition or staggering toward the edge of the transparent plate member 201. On the first surface 2011, the conductive paste is fixed on the first surface 2011 of the transparent plate member 2〇1 by heating and baking fixation or sintering to form the line 2〇2, wherein the line is formed by sintering. At 202 o'clock, the temperature of sintering is substantially 2 〇〇. 〇_5〇〇. The first guiding portion 204 is disposed on the transparent plate member 201 to form at least one first guiding portion 204'. In the embodiment, the first guiding portion 204 is disposed in the transparent portion. Preferably, the first surface 2011 of the plate member 201 is located at the edge of the transparent plate member 201, and may have an opening 2042 (as shown in the second FIG. B). The direction of the opening 2042 may be substantially perpendicular to the transparent plate member. The first surface 2011 of the first surface 2011, and the plurality of first conductive structures 2041 for guiding, for example, conductive elastic sheets, conductive sheets or conductive bumps made of metal, may be disposed in the opening 2042, in other words, The first guiding portion 204 of the illuminating panel assembly 2 can be a socket, and the second guiding portion 221 of the circuit board 22 corresponds to each other. The first surface 2011 of the transparent panel 201 is in addition to the line 2 In addition, a plurality of light-emitting elements 203 are further provided, wherein the light-emitting element 203 is preferably a light-emitting 201106048 diode, which can be used as shown in the third figure A, using a surface-adhesive type (light-emitting) light-emitting diode 203a. Adhesive medium (not shown) such as a transparent adhesive adheres to the transparent plate The surface-surface of 2〇1 is recommended, and the gold wire 2〇31 of the surface-adhesive LED housing is electrically connected to the line 2〇2 by means of soldering 7" or as shown in the third figure B. The unencapsulated illuminating wafer 203b is directly disposed on the first surface 2 〇 ι of the transparent plate member 2〇1, and is also electrically connected to the illuminating diode package by the gold wire, and then moved to the first surface. In 2011, a transparent encapsulation layer is disposed to cover the LED wafer 203b, the gold wire 2031 and the wiring 2〇2; of course, the LED chip can be directly transmitted through the solder 2032 by a flip chip bonding method. 202 electrical connection (as shown in the third figure c), in other words, the selection of the light-emitting diode is not limited. In addition, in order to improve the brightness of the light-transmitting display module 2, in some embodiments, The line 202 and the light-emitting element 203 may be selectively disposed on the first and second surfaces 2〇n, 2〇12 of the transparent plate member 201, for example, as shown in FIG. 3, • the transparent plate member 201 The surface-adhesive light-emitting diode 203a on the second surface 2012 is made of a gold wire 2031 and The line 202 on the two surfaces 2012 is electrically connected to the light source projection direction d of the surface-adhesive light-emitting diode 203a', and substantially the light source projection direction of the surface-adhesive light-emitting diode 203a disposed on the first surface 2011. d is the same, that is, the surface-adhesive light-emitting diode 203a' emits light toward the first surface 2011 of the transparent plate member 201, and the brightness is increased by increasing the density of the light-emitting element 203 per unit area. Of course, the light-emitting element 203 can also be visually required. Optionally, it is separately disposed on the second surface 2012 of the transparent plate member 2〇1, which does not affect the implementation of the present invention. 11 201106048 Please refer to FIG. 2A again. In addition to the illuminating panel assembly 20, the transparent display module 2 further includes a support structure and a circuit board assembly 25 supported by the support structure 21 and the circuit board 22, wherein the support structure In addition to being used to carry the support and fix the illuminating panel assembly 2, the circuit board 22 can also be disposed thereon, and the support structure 21 has a light transmitting region 21 〇. The circuit board 22 can be a logic control circuit board for driving and controlling the light-emitting elements 2〇3, and each circuit board 22 includes at least one second guiding portion 221. In this embodiment, the second guiding portion 221 It can be disposed at the edge of the circuit board 22, and the number, position and form are substantially the same as the first conductive Φ junction 204 corresponding to the illuminating panel assembly. For example, the circuit board 22 of the embodiment can be The bump 2212 has a plurality of second conductive structures 2211 extending from the edge of the circuit board 22 in parallel (as shown in FIG. 2B), for example: a metal conductive sheet, and a flat setting On the bump 2212, to form the first guiding portion 221 of the embodiment, in other words, the second guiding I5 21 of the circuit board 22 of the embodiment is preferably a gold finger, and the first combination of the illuminating plate member The guiding portion 204 and the second guiding portion 221 of the circuit board 22 correspond to each other, and the first guiding portion 204 is substantially a gold finger socket. When the illuminating panel assembly 20, the supporting structure 21, and the circuit board 22 are to be assembled, the circuit board 22 can be disposed at a predetermined position of the supporting structure 21 by locking, adhering, clamping, or clamping. The support structure and the circuit board assembly 25 are formed, and the light-emitting panel assembly 2 is assembled with the support structure and the circuit board assembly 25. The light source projection direction d of the light-emitting element 203 of the light-emitting panel assembly 20 can be directed toward the support structure 21. The light-transmissive region 210 (as shown in FIG. 1A) is in this case, the second guiding portion 221 of the circuit board 22, for example, the gold 12 201106048 finger, corresponds to the first surface on the first surface 2011 of the transparent plate member 201. The guiding portion 204, for example, a gold finger socket, is fixed on the supporting structure 21 while the illuminating panel assembly 20 is locked, adhered, clamped, clamped, clamped or inlaid. The second guiding portion 221 of the circuit board 22 on the support structure 21 can be directly inserted and received in the opening 2042 of the first guiding portion 204 of the illuminating panel assembly 20, and the second guiding portion 221 is second. The conductive structure 2211 is connected to the first conductive structure 204 in the opening 2042 1 touching each other, that is, the gold finger can be directly docked with the gold finger socket. It can be seen that the third guiding portion 204 of the luminescent panel assembly 20 can be fixed to the branch structure 21 by the illuminating panel assembly 20. The second conductive portion 221 of the circuit board 22 is directly connected to the second conductive portion 221 of the circuit board 22, thereby further connecting the light emitting panel assembly 20 and the circuit board 22. Please refer to the second figure A and the fourth figure A', wherein the fourth figure A is a schematic diagram of the configuration of the light-emitting panel assembly and the power supply device and the control device. In order to control the light-transmitting display module 2 and supply the required power, the transparent light-type display module 2 may further include a power supply device 23 and a control device 24, wherein the power supply device f 23 and the control device 24 The first wire 231 and the second wire 241 are respectively electrically connected to the circuit board 22, and the circuit board 22 is electrically connected to the illuminating plate member 20, so that the light-emitting panel assembly 20 can be provided. The power required for the component 203 and the control of the switch ′ of the illuminating component 203 are not limited to the second and second wires 231 and 241, which may be a power line or a bus bar 'but not limited thereto. In addition, as described above, since the light-transmitting display module 2 can expand a plurality of sets of the light-emitting panel assemblies 20, for example, the first light-emitting panel assembly 2〇a, the second light-emitting panel assembly 13 201106048 2〇b.. ..... to the nth illuminating panel assembly 20n' is a plurality of sets of power supply devices 23, such as a first power supply device 23a, a second power supply device 23b, which can be matched with a corresponding number. The power is supplied to the eleventh power supply device 23n' and adjacent to the corresponding power source and supply device 23 of the light-emitting panel assembly 20. For example, please refer to FIG. 4, which is a schematic structural view of a light-transmitting display module and a power supply device and a control device thereof according to a preferred embodiment of the present invention. As shown in FIG. 4A, the light-transmitting display module 2 may include a first and second power supply devices 23a, 23b, and first and second light-emitting devices 23a, 23b. The board assembly 2〇a, 20b is fixed on the supporting structure 21, and is controlled by the control device 24 via the circuit board 22 and the second wire 241 at the same time. Further, the first power supply device 23a is adjacent to the first The illuminating panel assembly 20a is disposed, and supplies the power required by the illuminating element 2〇3 of the first illuminating panel assembly 20a through the first wire 231 and the circuit board 22 electrically connected to the first illuminating panel assembly 20a. The second power supply device 23b is disposed adjacent to the second illuminating plate assembly 2, and is provided by the second power supply device 23b through the first wire 231 and the circuit board 22 electrically connected to the second illuminating plate assembly 2Gb. The electric power required for the light-emitting element 2〇3 of the second light-emitting panel assembly 20b is such that the length of the first wire 231 can be shortened, that is, the power supply path can be shortened, thereby reducing the loss and avoiding the whole of the light-transmitting type (4) group 2 The brightness is affected by (four). Of course, the light-transmitting display module 2 can also expand the plurality of sets of the light-emitting panel assemblies 2 horizontally or vertically. In this case, the plurality of power supply devices can be utilized only by adjusting the number and arrangement positions of the power supply slots 23 . 23^, θ Xiadao knife is placed to make the light-transmitting display module 2 maintain a predetermined brightness. 201106048 Compared with the prior art, in this embodiment, the circuit board 22 and the support structure 21 are modularly configured as the support structure and the circuit board assembly 25, and the second guiding portion 221 of the circuit board 22 is combined with the light-emitting board. The first guiding portions 204 of the two are corresponding to each other, so that when the illuminating panel assembly 20 is disposed on the supporting structure 21, the first guiding portion 204 thereof can directly contact the circuit board 22 disposed on the supporting structure 21. The two guiding portions 221 are butted together, and the combination of the illuminating panel assembly 20 and the supporting structure 21 and the electrical connection between the illuminating panel assembly 20 and the circuit board 22 are completed in a single step, so as to avoid the need to pass through the connecting flexible board 11 The complicated assembly steps of connecting the circuit 102 and the circuit board 12 one by one, and it should be understood that the assembly of the present embodiment is simpler than the conventional structure, and therefore has the advantage of facilitating maintenance; and the circuit board of the embodiment The second guiding portion 204 of the illuminating plate assembly 20 can be directly connected to the second guiding portion 221 of the circuit board 22 to be electrically connected, so that the conventional connecting flexible board can be omitted. The use of 11 is not only beneficial Reducing the manufacturing cost can also prevent the negative influence on the light transmittance of the transparent plate member 101 due to improper reception of the flexible board 11 or the circuit board 12. Furthermore, since the illuminating panel assembly 20 must be tightly coupled to the support structure 21 to prevent detachment, the first and second guiding portions 2 〇 4 and 221 can also be used to strengthen the knotting strength to avoid loosening. Take off. Of course, the present invention is not limited to the above embodiment, please refer to the fifth figure, which is a schematic structural view of the light-transmitting display module of the second preferred embodiment of the present invention. As shown in the fifth figure, the light-transmitting display module 3 includes a light-emitting panel assembly 3〇 and a support structure and a combination of the support structure 31 and the circuit board 32, wherein the light-emitting panel assembly 30 The arrangement of the transparent plate member 3, the line 15 201106048 302 and the light-emitting element 303 is substantially similar to that of the first preferred embodiment shown in FIG. A of the present invention. Further, the line 302 is also formed on the transparent plate member 301. The first guiding portion 304 is substantially smaller than the edge of the transparent plate member 〇1. However, in the embodiment, the first guiding portion 304 is flatly attached to the first guiding portion 304. A plurality of conductive sheets, such as metal conductive sheets, are disposed on the first surface 3011 of the transparent plate member 301, and the circuit board 32 is substantially fixed to the support structure 31 parallel to the transparent plate member 301, and the circuit board 32 also includes The second guiding portion 321 is configured to cooperate with the first guiding portion 304 on the first surface 3011 of the transparent plate member 301. The second guiding portion 321 of the embodiment may also be a plurality of conductive plates disposed on the surface of the circuit board 32. Piece 'for example: metal conductive sheet, wherein the number of second guiding portions 321 The position is corresponding to the first guiding portion 304. It should be understood that the first guiding portion 304 of the illuminating panel assembly 30 can be fixed on the branch structure 31 by using the illuminating panel assembly 3 The second guiding portions 321 of the circuit board 32 on the supporting structure 31 are directly in contact with each other and electrically connected, and are firmly connected to each other by the force of the tight coupling between the illuminating plate member combination 30 and the sturdy structure 31. The circuit board 32 and the illuminating panel are combined to be electrically connected. In addition, the first and second guiding portions 304 and 321 may be metal conductive sheets. In some embodiments, conductive bumps (not shown) or conductive elastic sheets may be used to cooperate with each other. The abutting contact effect between the second guiding portions 3〇4 and 321 is such that the first and second guiding portions 3〇4 and 321 are electrically connected to each other.
請參閱第六圖八及第六圖B,其係分別為本案第三較 實^例之透光型_示模組的部分結構示意圖及第六圖A 201106048 之A-Λ剖面圖。如第六圖A所示,透光型顯示模組4包括 發光板件組合40以及由支撐結構41和電路板42所共組成 的支撐結構及電路板組合45,其中發光板件組合 40之透 明板件401、線路402和發光元件403的配置實質上與本 案第二圖A所不之第一較佳實施例和第五圖所示之第二較 佳貫施例相似,且線路4〇2亦於透明板件4〇1之第一表面 4011上匯集形成至少一個第一導接部4〇4,於本實施例 中,第一導接部404可為平貼於透明板件4〇1之第一表面 .4011上的導電片(如第六圖b所示),其實質上係與本案第 五圖所示之第二較佳實施例的發光板件組合3〇之第一導 接部304相似,惟本實施例之第一導接部4〇4並非緊鄰於 透明板件401之邊緣設置。 清再參閱第六圖A並配合第六圖b,為了使發光板件 組合40可以穩固地設置於支撐結構41上,本實施例之支 撐結構41大致上可呈U字型結構俾形成一容置槽411,其 中容置槽411之寬度W實質上近似發光板件組合4〇的厚 度T,俾利用容置槽4U容收部分之發光板件組合4〇而夾 持於發光板件組合40之邊緣,藉此達到支樓承載發光板件 組合40之目的。而支撐結構41除了容置槽411外,尚包 括至少一第二導接部412及至少一第四導接部413,其係 以分設於谷置槽411之兩側為佳(如第六圖B所示),於本 實施例中,第三導接部412可為導電引腳,其係由支撐結 構41之容置槽411的其中一知延伸而出且實質上鄰近於容 置槽411,又第三導接部412之數量及位置實質上對應於 17 201106048 發光板件組合40之第一導接部404,至於第四導接部413 係一體成型地由支撐結構41之容置槽411相對於設置第三 導接部412的另一端延伸而出,且第四導接部413實質上 與本案第一較佳實施例之第一導接部204結構相似,可包 括一開口 4132,且開口 4132内部設有第四導電結構4131, 其中第四導電結構4131又以金屬導電彈片為佳,換言之, 第四導接部413亦可為一體成型設置於支撐結構41上的插 接座,例如:金手指插接座。此外,第三、第四導接部412、 413之間係以埋設於支撐結構41中的導電路徑414彼此電 性連接,舉例而言:本實施例之導電路徑414可為金屬導 線,而支撐結構41可由塑料製成,俾於射出成型製作支撐 結構41的同時將導電路徑414 一併埋設於支撐結構41 中’而導電路徑414相對於支撐結構41凸出之一端可彎折 而形成第三導接部412,另一端則可與設置在預留之開口 4132内部的第四導電結構4131相連,俾使第三導接部412 和第四導接部413之間可藉由導電路徑414而彼此電性連 接。至於支撐結構及電路板組合45之電路板42則包括第 二導接部421,於本實施例中,電路板42之結構實質上與 本案第二圖A及第二圖B所示之第一較佳實施例之電路板 22相似’換言之’電路板42之第二導接部421亦以金手 指為佳’且電路板42之第二導接部421與支撐結構41之 第四導接部413的位置、數量等係彼此對應,俾利用金手 指與金手指插接座對接之方式將電路板42穩固地設置於 支揮結構41上’並使電路板42之第二導接部421可容置 201106048 於支撐結構41之笛pq道丨在/1 ο 之第四V接部413之開口 4132中而與第四 導接#413兒性連接,以構成本實施例之支樓結構及電路 板組合45。此外,電路板42與電源供應裝置和控制裝置(未 圖不)之間的關係亦與本案第—、第二較佳實施例相同,於 此不再贅述。 而當發光板件組合40欲與支撐結構及電路板組合45 相組配時’可將發光板件組合4〇部分容置於支樓結構41 之容置槽4U巾,由於容置槽411之寬度w近似發光板件 組合40之厚度τ’因此支撐結構41實質上可夾持於發光 板件組合40之邊緣,以將發光板件組合4〇設置於支撐結 構41上,又由於支撐結構41之第三導接部412係鄰近於 谷置槽411且對應於發光板件組合之第一導接部4〇4, 因此便可於發光板件組合40設置於支撐結構41上時,直 接以第二導接部412搭接於發光板件組合4〇之第一導接部 404上,使第一、第三導接部4〇4、412之間相互接觸而電 φ 性連接(如第六圖B所示),又由於支撐結構41之第三導接 部412係透過導電路獲414與第四導接部413電性連接, 而電路板42之第二導接部421亦對應插植於第四導接部 413中而與第四導接部413電性連接,是以應可理解,本 實施例之發光板件組合40之第一導接部404可於發光板件 組合40設置於支撐結構41上的同時,透過支撐結構41之 第三導接部412、導電路徑414和第四導接部413而間接 地與電路板42之第二導接部421電性連接,俾達成使電路 板42和發光板件組合40電連接之目的。Please refer to the sixth figure 8 and the sixth figure B, which are respectively a partial structural diagram of the light-transmissive type module of the third comparative example of the present invention and an A-Λ cross-sectional view of the sixth figure A 201106048. As shown in FIG. 6A, the light-transmitting display module 4 includes a light-emitting panel assembly 40 and a support structure and a circuit board assembly 45 composed of a support structure 41 and a circuit board 42, wherein the light-emitting panel assembly 40 is transparent. The arrangement of the board member 401, the line 402 and the light-emitting element 403 is substantially similar to the second preferred embodiment of the first preferred embodiment and the fifth embodiment of the second embodiment of the present invention, and the line 4〇2 At least one first guiding portion 4〇4 is also formed on the first surface 4011 of the transparent plate member 401. In this embodiment, the first guiding portion 404 can be flatly attached to the transparent plate member 4〇1. The conductive sheet on the first surface .4011 (as shown in FIG. 6b) is substantially the first conductive joint of the light-emitting panel assembly of the second preferred embodiment shown in the fifth embodiment of the present invention. The portion 304 is similar, but the first guiding portion 4〇4 of the embodiment is not disposed adjacent to the edge of the transparent plate member 401. Referring to FIG. 6A and FIG. 6b together, in order to enable the illuminating panel assembly 40 to be stably disposed on the support structure 41, the support structure 41 of the present embodiment can be substantially U-shaped to form a volume. The groove 411 is disposed, wherein the width W of the accommodating groove 411 is substantially similar to the thickness T of the illuminating plate assembly 4〇, and is clamped to the illuminating plate assembly 40 by the illuminating plate assembly 4 of the accommodating groove 4U. The edge is thereby achieved by the support building carrying the illuminating panel assembly 40. The support structure 41 includes at least one second guiding portion 412 and at least one fourth guiding portion 413, which are preferably disposed on two sides of the valley groove 411 (such as the sixth). In the embodiment, the third guiding portion 412 can be a conductive pin extending from one of the receiving slots 411 of the supporting structure 41 and substantially adjacent to the receiving slot. 411, the number and position of the third guiding portion 412 substantially correspond to the first guiding portion 404 of the illuminating plate assembly 40 of the 17 201106048, and the fourth guiding portion 413 is integrally formed by the supporting structure 41. The slot 411 extends from the other end of the third guiding portion 412, and the fourth guiding portion 413 is substantially similar in structure to the first guiding portion 204 of the first preferred embodiment of the present invention, and may include an opening 4132. The fourth conductive structure 4131 is further disposed in the interior of the opening 4132. The fourth conductive structure 4131 is preferably a metal conductive elastic piece. In other words, the fourth guiding portion 413 can also be a socket formed integrally on the supporting structure 41. For example: gold finger socket. In addition, the third and fourth guiding portions 412 and 413 are electrically connected to each other by a conductive path 414 embedded in the supporting structure 41. For example, the conductive path 414 of the embodiment may be a metal wire and supported. The structure 41 can be made of plastic, and the conductive path 414 is embedded in the support structure 41 while being injection molded to form the support structure 41. The conductive path 414 can be bent at one end with respect to the support structure 41 to form a third. The other end of the guiding portion 412 is connected to the fourth conductive structure 4131 disposed inside the reserved opening 4132, so that the third guiding portion 412 and the fourth guiding portion 413 can be connected by the conductive path 414. Electrically connected to each other. The circuit board 42 of the support structure and the circuit board assembly 45 includes a second guiding portion 421. In this embodiment, the structure of the circuit board 42 is substantially the same as that shown in the second figure A and the second figure B of the present case. The circuit board 22 of the preferred embodiment is similar to the 'in other words' the second guiding portion 421 of the circuit board 42 is also preferably a gold finger' and the second guiding portion 421 of the circuit board 42 and the fourth guiding portion of the supporting structure 41 The position, the number, and the like of the 413 are corresponding to each other, and the circuit board 42 is firmly disposed on the support structure 41 by means of the gold finger and the gold finger socket being docked, and the second guiding portion 421 of the circuit board 42 is The accommodating structure 201106048 is connected to the fourth guiding junction #132 in the opening 4132 of the fourth V-connecting portion 413 of the support structure 41 to constitute the branch structure and circuit of the embodiment. Board combination 45. In addition, the relationship between the circuit board 42 and the power supply device and the control device (not shown) is the same as that of the second and second preferred embodiments of the present invention, and will not be described again. When the illuminating plate assembly 40 is to be combined with the supporting structure and the circuit board assembly 45, the illuminating plate member assembly can be accommodated in the accommodating groove 4U of the fulcrum structure 41, because of the accommodating groove 411. The width w approximates the thickness τ' of the illuminating panel assembly 40. Thus, the support structure 41 can be substantially clamped to the edge of the illuminating panel assembly 40 to provide the illuminating panel assembly 4 to the support structure 41, again due to the support structure 41. The third guiding portion 412 is adjacent to the valley groove 411 and corresponds to the first guiding portion 4〇4 of the light emitting panel assembly, so that when the light emitting panel assembly 40 is disposed on the supporting structure 41, The second guiding portion 412 is overlapped with the first guiding portion 404 of the illuminating plate assembly 4, so that the first and third guiding portions 4 〇 4, 412 are in contact with each other and electrically connected (such as The third guiding portion 412 of the supporting structure 41 is electrically connected to the fourth guiding portion 413 through the guiding circuit 414, and the second guiding portion 421 of the circuit board 42 is correspondingly inserted. The fourth guiding portion 413 is electrically connected to the fourth guiding portion 413, so it should be understood that the embodiment is The first guiding portion 404 of the light panel assembly 40 can be transmitted through the third guiding portion 412, the conductive path 414 and the fourth guiding portion 413 of the supporting structure 41 while the light emitting panel assembly 40 is disposed on the supporting structure 41. The grounding is electrically connected to the second guiding portion 421 of the circuit board 42 for the purpose of electrically connecting the circuit board 42 and the light emitting panel assembly 40.
19 201106048 請再參閱第六圖A並配合第六圖B,由於透光型顯示 模組4通常設置於戶外,因此本實施例之支撐結構41亦可 增設盍體415以遮蓋第一、第三導接部404、412,藉此避 免因落塵等雜質覆蓋於第一、第三導接部4〇4、412而干擾 電連接效果,而利用蓋體415遮蓋第一、第三導接部4〇4、 412亦可提升透光型顯示模組4之整體美觀性。此外,由 於本實施例之第三導接部412和第四導接部413係分設於 支撑結構41之容置槽411的兩相對側,而電路板42之第 二導接部421係插植於支樓結構41之第四導接部413之開 口 4132中,是以電路板42並不會干擾透光型顯示模組4 之透光效果。而於某些實施例中,為了將發光板件組合4〇 穩固地設置於支撐結構41上,發光板件組合4〇與支樓結 構41之容置槽411之間亦可選擇性地施加黏著介質,例如: 黏著膠體,是以於加熱使黏著介質固化之後,發光板件組 合40便可穩固地設置於支撐結構41之容置槽4u中,此 外’於某些實施例中,亦可於第一、第三導接部4〇4、412 之間施予焊接加工,俾強化第一、第三導接部4〇4、412之 間的電連接關係。 由上述說明可知,本案之透光型顯示模組的發光板件 組合其弟一導接部可與°又置於支樓結構上之電路板的第二 導接部直接接觸(如第二圖A所示)、直接對接(如第五圖所 示)、或間接透過支撐結構(如第六圖A及第六圖B所示) 而達成發光板件組合與電路板電性連接的目的,並利用支 撐結構穩固地支撐承載發光板件組合,然應可理解,上述 201106048 之實施態樣皆是藉由發光板件組合設置於支撐結構上之技 術手段來達成使發光板件組合之第一導接部與電路板之第 二導接部電性連接之目的。 綜上所述’本案主要係於發光板件組合之透明板件上 直接將線路匯集形成與線路電性連接的第一導接部,而電 路板則設有第二導接部並配置於支撐結構的預設位置上而 組成支#結構及電路板組合,當發光板件組合配置於支撐 結構及電路板組合之支撐結構的預設位置時,發光板件組 合之第一導接部便可直接或間接地與電路板之第二導接部 電性連接,換言之’本案係將習知的透光型顯示裝置模組 化,俾於發光板件組合設置於支撐結構上的同時達成使發 光板件組合之第一導接部與電路板之第二導接部電性.連接 之目的’是以不但可省略習知連接軟板的使用,更可簡化 組裝步驟並避免習知採用連接軟板所可能造成的組裝複 雜、維修不便、成本較高及收納不易等問題。 此外,由於電路板係固設於支撐結構上而共組成支撐 結構及電路板組合’且發光板件組合必需穩固地配置在支 撲結構上以避免脫落,是以可知,不論發光板件组合之第 一導接部係直接與電路板之第二導接部對接、接觸或透過 支撐結構間接與電路板之第二導接部電連接,其皆可藉由 發光板件組合和支撐結構間的穩固結合而提升第一、第二 導接部間的連結強度,以防止第一導接部相對與第二導接 部鬆脫所可能造成的負面影響。 再者’當本案之透光型顯示模組擴充多組發光板件組 21 201106048 合時係因應配置多組電源供應裝置,是以每一發光板件組 合可利用鄰近之對應的電源供應裝置來供應所需電力,俾 縮短供電路徑而避免損耗問題,進而確保透光型顯示模組 之亮度。由於上述諸多優點係為習知技術所不及者,是以 本案之透光型顯示模組及其支撐結構及電路板組合極具產 業之價值,且符合各項專利要件,爰依法提出申請。 縱使本發明已由上述之實施例詳細敘述而可由熟悉 本技藝之人士任施匠思而為諸般修飾,然皆不脫如附申請 專利範圍所欲保護者。19 201106048 Please refer to FIG. 6A and FIG. 6B. Since the light-transmitting display module 4 is generally disposed outdoors, the support structure 41 of the embodiment may further include a body 415 to cover the first and third portions. The guiding portions 404 and 412 prevent the impurities from covering the first and third guiding portions 4〇4 and 412 to interfere with the electrical connection effect, and cover the first and third guiding portions 4 by the cover 415. 〇4, 412 can also enhance the overall aesthetics of the light-transmitting display module 4. In addition, the third guiding portion 412 and the fourth guiding portion 413 of the embodiment are respectively disposed on opposite sides of the receiving groove 411 of the supporting structure 41, and the second guiding portion 421 of the circuit board 42 is inserted. In the opening 4132 of the fourth guiding portion 413 of the branch structure 41, the circuit board 42 does not interfere with the light transmission effect of the transparent display module 4. In some embodiments, in order to securely mount the illuminating panel assembly 4 on the support structure 41, the illuminating panel assembly 4 〇 and the accommodating groove 411 of the branch structure 41 can also be selectively adhered. The medium, for example, the adhesive, is such that after the curing of the adhesive medium is cured, the illuminating plate assembly 40 can be stably disposed in the accommodating groove 4u of the support structure 41, and in some embodiments, The first and third guiding portions 4〇4 and 412 are subjected to a welding process to strengthen the electrical connection relationship between the first and third guiding portions 4〇4 and 412. It can be seen from the above description that the light-emitting panel assembly of the light-transmitting display module of the present invention can directly contact the second guiding portion of the circuit board which is placed on the branch structure (such as the second figure). A), direct docking (as shown in Figure 5), or indirectly through the support structure (as shown in Figure 6A and Figure 6B) to achieve the purpose of electrically connecting the illuminating panel assembly to the circuit board, And the support structure is used to stably support the combination of the illuminating plate members. However, it can be understood that the implementation manner of the above-mentioned 201106048 is achieved by combining the illuminating plate members on the supporting structure to achieve the first combination of the illuminating plate members. The purpose of electrically connecting the guiding portion to the second guiding portion of the circuit board. In summary, the present invention mainly integrates the lines on the transparent plate member of the illuminating plate member to form a first guiding portion electrically connected to the line, and the circuit board is provided with a second guiding portion and is disposed on the support. The preset position of the structure constitutes a branch structure and a circuit board combination. When the light emitting panel member is assembled in a preset position of the support structure and the support structure of the circuit board combination, the first guiding portion of the light emitting panel assembly can be Directly or indirectly connected to the second guiding portion of the circuit board, in other words, the present invention modularizes the conventional light-transmitting display device, and achieves the light-emitting plate assembly while being assembled on the supporting structure. The first guiding portion of the board assembly and the second guiding portion of the circuit board are electrically connected. The purpose of the connection is to not only omit the use of the conventional connecting flexible board, but also simplify the assembly step and avoid the conventional use of the connection soft. The board may cause complicated assembly, inconvenient maintenance, high cost, and difficulty in storage. In addition, since the circuit board is fixed on the support structure to form a support structure and a circuit board combination 'and the light-emitting board assembly must be stably disposed on the support structure to avoid falling off, it is known that the light-emitting board combination is The first guiding portion is directly connected to the second guiding portion of the circuit board, is in contact with or electrically connected to the second guiding portion of the circuit board through the supporting structure, and can be connected between the illuminating plate member and the supporting structure. The connection strength between the first and second guiding portions is improved by the solid combination to prevent the negative influence of the first guiding portion from being loose relative to the second guiding portion. Furthermore, when the light-transmissive display module of the present invention expands a plurality of sets of light-emitting panel sets, the 201106048 is a plurality of sets of power supply devices, so that each light-emitting panel combination can be utilized by a corresponding power supply device. Supply the required power, shorten the power supply path and avoid the loss problem, and thus ensure the brightness of the light-transmitting display module. Since many of the above advantages are inferior to the conventional technology, the light-transmitting display module of the present invention and its supporting structure and circuit board combination are of great industrial value, and comply with various patent requirements, and apply according to law. The present invention has been described in detail by the above-described embodiments, and may be modified by those skilled in the art without departing from the scope of the appended claims.
22 201106048 【圖式簡單說明】 第一圖:其係為習知透光型顯示裝置之結構示意圖。 第二圖A:其係為本案第一較佳實施例之透光型顯示模組之 部分結構示意圖。 第二圖其係為本案第二圖A所示之發光板件組合之線路 之第一導接部和電路板之第二導接部之結構示意圖。 第三圖A:其係為本案一較佳實施例之發光元件、線路和透 明板件之側視示意圖。 • 第三圖B:其係為本案另一較佳實施例之發光元件、線路和 透明板件之側視示意圖。 第三圖C:其係為本案又一較佳實施例之發光元件、線路和 透明板件之側視示意圖。 第三圖D:其係為本案再一較佳實施例之發光元件、線路和 透明板件之側視示意圖。 第四圖A:其係為發光板件組合與電源供應裝置及控制裝置 之配置示意圖。 * 第四圖其係為本案一較佳實施例之透光型顯示模組及其 電源供應裝置與控制裝置之結構示意圖。 第五圖:其係為本案第二較佳實施例之透光型顯示模組的 部分結構示意圖。 第六圖A:其係為本案第三較佳實施例之透光型顯示模組的 部分結構示意圖。 第六圖其係為本案第六圖A之A-A’剖面圖。 23 201106048 【主要元件符號說明】 透光型顯示裝置 1 發光板件組合 10、20、30、40 透明板件 101'201'301 ' 401 線路 102'202'302 > 402 發光二極體 103 連接軟板 11 電路板 12、22、32、42 透光型顯示模組 2、3、4 第一發光板件組合 20a 第二發光板件組合 20b 第η發光板件組合 20η 第一表面 2011、3011、4011 第二表面 2012 封裝層 2013 發光元件 203、303、403 表面黏著型發光二極體 203a、203a, 發光二極體晶片 203b 金線 2031 焊料 2032 第一導接部 2m、304、4m 第一導電結構 mi 開口 20t2'4132 支撐結構 21、31、41 透光區域 210 第二導接部 221、321、421 第二導電結構 221122 201106048 [Simple description of the diagram] The first figure: It is a schematic diagram of the structure of a conventional light-transmitting display device. Figure 2 is a partial structural view of the light-transmitting display module of the first preferred embodiment of the present invention. The second figure is a schematic structural view of the first guiding portion of the wiring of the illuminating panel assembly shown in the second drawing A of the present invention and the second guiding portion of the circuit board. Figure 3A is a side elevational view of a light-emitting element, wiring and transparent panel of a preferred embodiment of the present invention. • Fig. B is a side elevational view of a light-emitting element, wiring and transparent plate of another preferred embodiment of the present invention. Fig. C is a side elevational view showing a light-emitting element, a line and a transparent plate of still another preferred embodiment of the present invention. Fig. D is a side elevational view showing a light-emitting element, a line and a transparent plate of still another preferred embodiment of the present invention. Figure 4A is a schematic view showing the arrangement of the illuminating panel assembly and the power supply device and the control device. * The fourth figure is a schematic structural view of a light-transmitting display module and a power supply device and a control device thereof according to a preferred embodiment of the present invention. Figure 5 is a partial structural view of the light-transmitting display module of the second preferred embodiment of the present invention. FIG. 6 is a partial structural diagram of a light-transmitting display module according to a third preferred embodiment of the present invention. Figure 6 is a cross-sectional view taken along line A-A' of Figure 6 of the present invention. 23 201106048 [Description of main component symbols] Light-transmitting display device 1 Light-emitting panel assembly 10, 20, 30, 40 Transparent panel 101'201'301 '401 Line 102'202'302 > 402 LEDs 103 connection Soft board 11 circuit board 12, 22, 32, 42 light-transmissive display module 2, 3, 4 first light-emitting board assembly 20a second light-emitting board assembly 20b first light-emitting panel assembly 20n first surface 2011, 3011 4011 second surface 2012 encapsulation layer 2013 light-emitting elements 203, 303, 403 surface-adhesive light-emitting diodes 203a, 203a, light-emitting diode wafer 203b gold wire 2031 solder 2032 first guiding portions 2m, 304, 4m first Conductive structure mi opening 20t2'4132 support structure 21, 31, 41 light transmitting region 210 second guiding portion 221, 321, 421 second conductive structure 2211
24 201106048 凸塊 光源投射方向 電源供應裝置 第一電源供應裝置 第二電源供應裝置 第η電源供應裝置 第一導線 控制裝置 第二導線 支撐結構及電路板組合 容置槽 第三導接部 第四導接部 第四導電結構 導電路徑 蓋體 容置槽之寬度 發光板件組合之厚度 2212 d、d, 23 23a 23b 23η 231 24 241 25、35、45 411 412 413 4131 414 415 W τ 2524 201106048 bump light source projection direction power supply device first power supply device second power supply device η power supply device first wire control device second wire support structure and circuit board combination accommodating groove third guide fourth guide Width of the fourth conductive structure conductive path cover accommodating groove Width of the illuminating plate member combination 2212 d, d, 23 23a 23b 23η 231 24 241 25, 35, 45 411 412 413 4131 414 415 W τ 25