M403720 五、新型說明: 【新型所屬之技術領域】 本創作是有關一種顯示裝置,尤指一種軟板式發 光—極體(Lififht R m m + v 1 g n L tmmiting Diod e ’ L E D )顯示裝置。 【先前技術】M403720 V. New description: [New technical field] This creation relates to a display device, in particular to a Lififht R m m + v 1 g n L tmmiting Diod e ’ L E D display device. [Prior Art]
在現今科技發達、資訊傳播日益迅速,為了能夠立 即性、隨日m地達到向消費者介紹產品或是進行宣傳等 廣。效皿’現多直接以廣告看板、海報、招牌或顯示屏 ,方式來達到其宣傳效果,亦有直接於大眾運輸工具等 交通工具之乘坐相内或是車體外部,以設置或張 告看板或顯示屏等方式成為新型態之廣告宣傳趨勢;然In today's advanced technology, information dissemination is becoming more and more rapid, in order to be able to introduce products to consumers or to promote them in a timely manner. The effect board's use of advertising billboards, posters, signboards or display screens to achieve its publicity effect. It is also directly in the vehicle phase of the mass transit vehicle or outside the vehicle body to set or announce the billboard. Or display screens and other ways to become a new type of advertising trend;
該等制之廣告看板、海報、招牌或顯示屏之組裝、 設置之施X方式較為繁複無法任折㈣置於任 何具有弧度之曲㈣域,故纽行_顧時隨地與 立即性的宣傳效果,又其非影像式的廣告内容單一,如 欲更換其内容則需全部拆卸 '重新製作,熟不符合㈣ 效益與環保意識。 、月 之製造方法及軟性基板」與中華民 2 9 2 4 7 8號「軟式複合板」所 板雖可供實際應用’但其僅單純提供-軟性板材 3 M403720 i 另外予以連接導電線路與㈣電路等裝置來達到預定 的功能。 是以,如中華民國創作專利第1 2 4 6 3 6 6號 「軟性電路板」與第2QQ612787號「軟性電路 板」所揭π,其仙―軟絲板做為電路板基材,於該 軟性基板上置設有多數條導線,藉此有效制電性傳 輸,但其僅單純提供一電性控制傳輸之電路功能而無法 • 達到提供一光源連接以及顯示之功能。 故’如中華民國創作專利第2 〇 〇 6 2 5 6 7 3號 「具軟性基板之無機發光二極體顯示器」與第丨2 5 9 5 9 2號「具軟性基板之無機發光二極體顯示器」,其 係於一軟性基板上設置一驅動電路,再將至少一個無機 發光二極體磊晶膜接合於該軟性基板之表面並以該驅 動電路驅動發光,雖上述之軟性基板可提供一可撓曲並 鲁可同步提供L ED光源之軟性基板,但其所利用之L Ε D光源係以塗佈覆蓋之方式設置於適當處,其製作過程 繁複且無法視需求而任意調整其使用面積。 另,習用大型顯示看板,如中華民國創作專利】2 * 8 9 9 4 7號「可彎曲性L E D光源結構、軟板、及其 製造方法」所揭露:一種可彎曲性光源,利用軟板上金 屬層打線;fcf接、晶片黏晶、共晶黏結或覆晶封裝將發光 一極體嵌枯於金屬塾上’形成一可彎曲性L e d光源。 4 M403720 鲁 ^ t 藉由一金屬材質連結發光二極體與軟板,使用該可彎曲 性L E D光源軟板作為大型顯示面板,但因金屬材質不 透光之缺點’反而造成採光效果大幅降低。而中華民國 創作專利3 6 9 7 3 1號「以透明玻璃或石英當做永久 性基板之發光二極體及其製法」揭露:以透明玻璃或石 英當作永久性基板之發光二極體的製法,然其製作過程 繁複且耗費成本’且無法將發光二極體元件直接黏著至 • 玻璃基板上,其實際應用施工不易,且製作方式耗費成 本0 是以,本創作提出一種將複數發光二極體元件直接 貼著於一軟性基板上,再與複數導電線路電性連接形 成一軟板式發光二極體顯示裝置,實為本創作之原意。 【新型内容】 本創作之目的在於提供一種以一具有可撓性之軟 鲁性基板做為一顯示裝置,藉由在軟性基板上設置多數個 發光二極體元件與複數個導電線路,令該等發光二極體 疋件與導電線路達到電性連結,透過該軟性基板之可撓 性使其可應驗具有弧度之任何大小、尺寸的曲面或平 . 面結構上,以達到顯示之效果。 本創作之另一目的在於提供一種可直接將 路板之印刷控制電路直接印製於軟性基板上的軟板式 發光二極體顯示裝置,以避免硬板材質電性連結時跳點 5 M403720 * ♦ 1 f 之狀況產生,並得以按照實際需要調整該顯示裝置之面 積。 本創作之又一目的在於提供一種可直接黏貼設置 於各種平面或彎折曲面結構上之軟板式發光二極體顯 示裝置,藉由該顯示裝置之背膠式結構可直接將該軟板 式發光二極體顯示裝置黏著至各種結構面上,有效簡化 組成結構及施工方式,並得照實際需要調整該顯示裝置 φ 之面積。 本創作之再一目的在於提供一種藉由軟性基板之 可撓特性,且藉由其材質特性而製成可透光或不透光之 軟性基板’再將該等發光二極體之陣列安排作為顯示面 板,藉由將多數個發光二極體元件設置於該可撓式之軟 性基板上,而達到可適用於各種透明或不透明之結構面 上,並且藉由將顯示裝置设置於結構面之内侧以達到 鲁 防風、防曬及防水之效果。 為達上述目的及功效,本創作係提供一可撓材質之 軟性基板,其係具有一覆蓋多數個發光二極體元件之第 表面,並以網版印刷或塗佈烘烤之方式形成複數導電 ' 線路,該等發光二極體元件係以陣列安排設置於該第— 表面上並分別與該等導電線路電性連接後,再將該等導 電線路與複數控制電路電性連接,用以達到電性連接、 電流穩固以及電路控制之效用。 M403720 1 【實施方式】 請參閱第一圖,係為本創作第一實施例顯示裝置 之立體外觀圖,本創作係由一軟性基板i 〇、複數導電 線路2 0以及複數發光二極體元件3 〇所組成,其中, 該軟性基板1 〇係可為聚對笨二曱酸二乙酯(p E τ,The X-mode of the advertising billboards, posters, signboards or display screens of these systems is more complicated and cannot be folded (4) placed in any curved (four) domain with curvature, so the New Zealand line _ time and place and immediate publicity effect Moreover, its non-image-type advertising content is single. If you want to replace its content, you need to dismantle it completely, and it will not be compatible with (4) efficiency and environmental awareness. "The manufacturing method of the month and the flexible substrate" and the "soft composite board" board of the Chinese People's Republic of China 2 9 2 4 7 8 are available for practical use', but it is only provided - the flexible sheet 3 M403720 i is also connected to the conductive line and (4) A device such as a circuit to achieve a predetermined function. Therefore, for example, the "soft circuit board" of the Republic of China's patents No. 1 2 4 6 3 6 6 and the "soft circuit board" of No. 2QQ612787, the sin-soft wire board is used as a circuit board substrate. A plurality of wires are disposed on the flexible substrate to effectively transmit electrical power, but it merely provides a circuit function of electrically controlling transmission and cannot provide a function of providing a light source connection and display. Therefore, as in the Republic of China, Patent No. 2 〇〇 6 2 5 6 7 3 "Inorganic Luminescent Diode Display with Soft Substrate" and No. 2 5 9 5 9 "Inorganic Luminescent Diode with Soft Substrate a display device is provided with a driving circuit on a flexible substrate, and at least one inorganic light emitting diode epitaxial film is bonded to the surface of the flexible substrate and driven by the driving circuit, although the flexible substrate can provide a flexible substrate The flexible substrate can be flexibly and simultaneously provided with the L ED light source, but the L Ε D light source utilized is disposed in a suitable manner by coating coverage, and the manufacturing process is complicated and the use area cannot be arbitrarily adjusted according to requirements. . In addition, the use of large-scale display kanban, such as the Republic of China patents] 2 * 8 9 9 4 "flexible LED light source structure, soft board, and its manufacturing methods" revealed: a flexible light source, using a soft board The metal layer is wired; the fcf connection, the wafer die bonding, the eutectic bonding or the flip chip package embed the light emitting body on the metal crucible to form a bendable L ed light source. 4 M403720 Lu ^ t The light-emitting diode and the soft board are connected by a metal material, and the flexible L E D light source soft board is used as a large display panel. However, due to the shortcoming of the metal material being opaque, the lighting effect is greatly reduced. The Republic of China's patent No. 3 6 9 7 3 1 "Light-emitting diodes using transparent glass or quartz as a permanent substrate and its manufacturing method" reveals the method of producing a light-emitting diode using transparent glass or quartz as a permanent substrate. However, the production process is complicated and costly' and the LED component cannot be directly adhered to the glass substrate, and the practical application thereof is not easy to be used, and the manufacturing method is costly. Therefore, this creation proposes a plurality of light-emitting diodes. The body element is directly attached to a flexible substrate, and then electrically connected with the plurality of conductive lines to form a soft-plate type light-emitting diode display device, which is the original intention of the creation. [New content] The purpose of the present invention is to provide a flexible soft substrate as a display device, by providing a plurality of light emitting diode elements and a plurality of conductive lines on a flexible substrate. The light-emitting diode element is electrically connected to the conductive line, and the flexibility of the flexible substrate can be used to perform a curved surface or a flat surface structure of any size and size with a curvature to achieve the display effect. Another object of the present invention is to provide a soft-plate type light-emitting diode display device capable of directly printing a printing control circuit of a road board directly on a flexible substrate, so as to avoid a jump point of 5 M403720 when the hard board material is electrically connected. The condition of 1 f is generated and the area of the display device can be adjusted as needed. Another object of the present invention is to provide a soft-plate type light-emitting diode display device which can be directly attached to various planar or curved curved structures, and the soft-plate type light-emitting structure can be directly adopted by the adhesive-back structure of the display device. The polar body display device is adhered to various structural surfaces, which simplifies the structure and construction method, and adjusts the area of the display device φ according to actual needs. A further object of the present invention is to provide a flexible substrate which can be made transparent or opaque by the flexible properties of a flexible substrate, and which is arranged as an array of the light-emitting diodes. The display panel can be applied to various transparent or opaque structural surfaces by arranging a plurality of light emitting diode elements on the flexible flexible substrate, and the display device is disposed on the inner side of the structural surface. In order to achieve the effect of wind, sun and water. In order to achieve the above objects and effects, the present invention provides a flexible substrate having a flexible material, which has a surface covering a plurality of light-emitting diode elements, and forms a plurality of conductive materials by screen printing or coating baking. a line, the light emitting diode elements are arranged on the first surface in an array arrangement and electrically connected to the conductive lines respectively, and then electrically connected to the plurality of control circuits to achieve Electrical connection, current stability, and the effectiveness of circuit control. M403720 1 [Embodiment] Please refer to the first figure, which is a perspective view of a display device according to a first embodiment of the present invention. The present invention consists of a flexible substrate i 〇, a plurality of conductive lines 20 and a plurality of light-emitting diode elements 3 The composition of the crucible, wherein the flexible substrate 1 is a poly(p-diethyl phthalate) (p E τ,
Poly ethylene terephthalate )、聚丙烯(ρ ρ , polypropylene)、聚亞醯胺(PI,p〇lyimide)或壓克 •力(PMMA, Polymethylmethacrylate)等透光或不 透光之材質所組成之規格大於1 〇cm xl 〇cm以上之 基板,該基板亦可為一軟性印刷電路板(F p C,Flex Printed Circuit),軟板之基材可為ρ p或ρ E τ,利用 已經被覆銅箔之基材以蝕刻方式製造印刷電路板(ρ c B ),可生產單面、雙面或多層軟板,更可嵌入零件加 工,如本創作之發光二極體元件,具有柔軟、可隨意弯 • 曲折疊、厚度薄、體積小、連接簡單及拆卸方便等特 性;,該軟性基板1 〇係設有一可設置複數發光二極體 元件3 0之第一表面1 1以及一於軟性基板1 〇另側 相對於該第一表面1 1之第二表面1 2(圖中未示),並 * 於該第一表面1 1上以導電膠印刷或塗佈燒結成複數 導電線路2◦。 其中’該等導電線路2 0係為多種含金屬及非金屬 經特殊配方所複合而成之材質’該金屬材質如銀、銅以 7 及把等。 »玄等複數發光二極體元件3 〇係以陣列安排設置 於第一表面1 1上’並以銀漿或其它導電材料銲接之方 式分別與該科電料2 Q紐連純,秘該等複數 發光二極體元件3 〇外層與軟性基板工〇之接觸面包 覆透明勝形成一保護層⑽中未示),以有效增加發光 二極體元件3 〇之固著功效。 該等導電線路2 0則分別朝向軟性基板工〇之周 圍邊緣以放射狀平行並列或交錯方式延伸,並於該邊緣 匯集連接形成複數個導電單元2 i,藉此,有效達到電 性連接以及提供電流之用,其中,該等導電線路2〇係 以具有奈米尺度之導電膠以網版印刷後,經加熱及洪烤 固定形成或塗佈於軟性基板i 〇上,再以高溫燒結而形 成。 請參閱第二圖’係為本創作第一實施例顯示裝置之 正視圖,本創作係將複數導電線路2 〇印刷或塗佈於該 軟性基板1 〇之第一表面i i上,同時於該第一表面工 1之周圍邊緣區域將印刷控制電路4 〇予以印製於同 一平面上或其背面,再透過貫穿孔將印刷控制電路4 〇 與導電線路2 0電性連接,並藉由該印刷控制電路4 〇 之導電單元4 1與該等導電線路2 〇對應連接後,再將 該等複數發光二極體元件3 〇予以黏貼設置於軟性基 M403720 板1 0之第一表面1 1上,並與該等導電線路2 0之導 電單元2 1電性連結。 藉由該設置於軟性基板i 〇侧端之印刷控制電路 4 0以及貼片式之發光二極體元件3 ◦,有效簡化該軟 性基板1 0表面之線路配置,且利用該軟性基板i 〇之 可撓曲特性,令本創作具有可彎折捲曲,而達到方便攜 帶、施工便利之功效。 其中,該等複數導電線路2 〇係可視實際使用需求 而设置其分布延伸的面積,並可利用多層印刷之方式, 於原有之含發光二極體元件3 0及導電線路2 〇的顯 示層上增加一絕緣層後,再直接重疊印製另一顯示層, 利用多層穿孔的方式達到顯示層間的電性導通且藉由 將該等印刷控制電路4 〇直接印刷設置於軟性基板工 0上之設計,可直接達到電性連結之連接方式,以及軟 i1生基板1 〇之軟性板狀設計,可因應各種不同形式大小 之顯示裝置空間需求,有效達到使用面積以及彈性運用 之效果。 請參閱第三A圖及第三B圖,分別為本創作第二實 施例之正視圖及本創作第二實施例之背視圖該印刷控 制電路4 0係可直接將其印刷設置於軟性基板丄〇之 第二表面1 2上,並透過直接於軟性基板i 〇上穿孔之 方式令第一表面11上的導電線路2〇與第二表面工 9 M403720 2之印刷控制電路4 〇電性連接,藉此,有效達到電性 連結、電流穩固以及電路控制之效用。 其中’該印刷控制電路4 0係直接印刷設置於軟性 基板1 0之周圍邊緣,並直接與該等複數導電線路2 〇 接觸連結,藉由將該等導電線路2 〇及控制結構共同設 置於该軟性基板1〇上,不僅有效達到連結各導電元件 之功能而消除跳點狀況之缺點,且透過軟性基板i 〇之 • 可撓曲之材質特性,令本創作可適用於各種彎折結構面 上。 睛參閱第四圖,係為本創作第二實施例之局部放大 圖,透過將該印刷控制電路4 〇予以印刷設置於軟性基 板1 0之第二表面1 2上,使其相對設置於第一表面工 1上之導電線路2 〇背面,以簡化軟性基板i 〇表面之 線路配置,並可有效增加單一基板可利用於設置發光二 _ 極體元件30之表面積。 請參閱第五A圖及第五b圖,分別為本創作之實施 狀態示意圖及本創作之另一實施狀態示意圖,本實施狀 態係湘該軟性基板! 〇可撓之特性,以達到將該等發 、光二極體元件3 0設置於軟性基板工〇上,再與複數導 電線路2 Q連結,並透過該等導電線路2 Q與該等印刷 控制電路4 Q形成電性連結後,透過其轉式之特殊設 計而可直接將該軟性基板工〇黏貼至任一平面或凹: M403720 曲面上。 請參閱第六A圖及第六B圖,分別為本創作之實施 例之組成示意圖及本創作之實施例之剖面示意圖,以一 固定大小之軟性基板1 〇為例,如欲有效增加其顯示亮 度及色彩之飽和度,除透過連接複數個軟性基板丨〇以 增加顯示面外,亦可藉由直接於同一軟性基板1 〇上設 置多數個發光二極體元件3 〇及複數導電線路2 〇 • 後,形成一第一顯示層1 0 1,然後再於該第一顯示層 1 0 1上直接塗佈設置一絕緣層2 2後,再將多數個發 光二極體元件3 0以矩陣排列之方式重疊設置於該絕 緣層2 2上’再以印刷熱烘或塗佈燒結之方式予以重疊 設置導電線路2 〇,並與該等發光二極體元件3 〇電性 連結,藉此形成第二顯示層1 〇 2,依此方式,可視實 際使用需求’重複塗佈另一絕緣層2 2後再予以設置該 _ 等發光二極體元件3 〇與導電線路2 〇,形成第三顯示 層1 0 3 ’再藉由將該各顯示層間所塗佈之絕緣層2 2 穿孔形成開孔2 3,令各顯示層之導電線路2 〇導通而 有效達到電性連接’以形成一多層顯示結構之顯示裝 置。 請參閱第七圖,係為本創作發光二極體之第一實施 方式示意圖’本實施例之發光二極體元件3 〇係可為S MD (Surface Mount Device)表貼封裝形式之發光二 M4037.20 極體,將該發光二極體元件3 0之座體3 1直接黏合至 軟性基板1 0之第一表面1 1上,再以二接線3 2、3 3分別連接該發光二極體元件3 〇後,再與塗佈於第一 表面1 1上之導電線路2 0以銀漿或其它導電材料銲 接之方式固接,藉此達到電性導通。 請參閱第八圖,係為本創作發光二極體之第二實施 方式示意圖,本創作之發光二極體元件3 〇亦可為未經 鳙 封裝之發光二極體群晶片’如圖所示,直接將該發光二 極體元件3 0之座體3 1黏合於軟性基板1 〇之第一 表面1 1上,令該發光二極體元件3〇之二接線3 2、 3 3直接與該導電線路2 0形成連結後,再於第一表面 11上設置一封裝層50’予以覆蓋於發光二極體元件 3 0以及一接線3 2、3 3上,藉此達到封裝保護以及 電性連接之效用。 ® 請參閱第九圖’係為本創作發光二極體之第三實施 方式示意圖,該軟性基板1 0係設有一第一表面1 1以 及一第二表面1 2 ’本實施例係直接於該第二表面1 2 上塗佈設有複數導電線路2 〇,並同時於該第二表面1 2上直接黏著設置複數發光二極體元件3 0,令該等發 光二極體元件3 〇之二接線3 2、3 3直接與該等複數 導電線路2 0形成電性連結並使發光二極體元件3 〇 之發光面朝外設置,以提供透過軟性基板1 〇向外發光 12 M4037.20 的作用,如圖中之虛線所示;此外,更可依照該等複數 發光二極體元件3 〇與軟性基板1 〇之結合方式,直接 以應用面的基板取代該軟性基板^ 〇,將該等複數發光 二極體元件3 0直接設置於應用面的基板上。 請參閱第十圖,係為本創作發光二極體之第四實施 方式示意圖,係分別於軟性基板i 〇之第一表面i丄與 第二表面1 2交錯設置複數個發光二極體元件3 〇,同 鲁時令5亥等發光二極體元件3 〇朝同一方向發射光源,而 藉由將該等發光二極體元件3 〇以交錯排列之連接設 置方式,有效達到令本創作之顯示裝置之色彩顯示更加 細緻、明亮。 请參閱第十-圖’係為本創作之發光二極體元件示 意圖,該發光二極體元件3 〇係可為一單色顯示之單晶 片發光二極體元件或多種色彩顯示之單晶片發光二極 •體兀件所組成,本創作係以多種色彩顯示之單晶片發光 二極體元件為例,其係由一單晶片發光二極體元件3 7 與控制電路所組成,其中,該單晶片發光二極體元件3 .7係由-紅光發光二極體晶片|元34、一藍光發光二 極體b曰片單元3 5以及一綠光發光二極體晶片單元3 6與-特殊微晶片整合製作而成,藉由將該等發光二極 體晶片早兀整合組成一單晶片發光二極體元件3 7,並 與5玄控制電路特殊微晶片結合形成發光二極體元件3 13 Ο ’使得該發光二極體元件3 ◦形成一可提供多重色彩 光源之元件。 —其中,該特殊微晶片具有為配合該等三色發光二極 體單元之色彩顯示而設計之控制電路。 請參閱第十二圖,係為本創作之線路示意圖,透過 不同的使用需求而設置該等複數發光二極體元件3 〇 於軟性基板1 〇上,並分別設置料複數導電線路2 〇 、放射狀平行並列或交錯方式向軟性基板1 〇之周圍 邊緣延伸匯集形成複數個導電單元21。 由上可知,本創作之結構具有如下之實用優點: 藉由軟性基板之可撓曲之功能,且可直接以網版印 届J或塗佈燒結複數導電線路與印刷控制電路,不僅可令 軟性基板依照實際需要延伸連接,更進一步可提供防止 線路間連接時之跳點情況產生。 透過該軟性基板之特殊材質設計,於應用在連接軟 性基板與軟性基板間產生無縫隙效果,呈現一密合狀 態’藉由其面積大小可視需求而設置之功能特性,而達 到可依實際需要採用’小至車輛窗戶、辦公室名牌等, 大至大樓之圓柱、招牌或玻璃帷幕外牆等之顯示裝置。 經由該軟性基板之可撓材質特性’以及背膠式之黏 貼設計’令本創作之顯示裝置可適用於各種平面或具有 弧度之曲面,且可直接以黏貼之方式穩固設置於應用面 M403720 之内、外面,而有效擴大其適用範圍且更加簡化施工作 業。 透過將多層式穿孔式之印刷熱烘或塗佈燒結之方 式將導電線路與印刷控制電路直接重疊印製於軟性基 板上,令本創作之發光二極體軟板式顯示裝置可呈現多 重色彩,且令顯示裝置之顯示光源更為細緻、明亮。Polyethylene terephthalate), polypropylene (ρ ρ , polypropylene ), polyacrylamide (PI, p〇lyimide) or PMMA (polymethylmethacrylate), etc.基板cm xl 〇cm or more of the substrate, the substrate may also be a flexible printed circuit board (F p C, Flex Printed Circuit), the substrate of the soft board may be ρ p or ρ E τ, using the base of the already coated copper foil The printed circuit board (ρ c B ) is etched to produce single-sided, double-sided or multi-layer soft boards, and can be embedded in parts. For example, the light-emitting diode components of the present invention have soft and free bends. The flexible substrate 1 is provided with a first surface 1 1 on which a plurality of light-emitting diode elements 30 can be disposed, and a flexible substrate 1 〇 the other side, which is characterized by folding, thin thickness, small size, simple connection, and convenient disassembly; With respect to the second surface 12 of the first surface 1 1 (not shown), and * is printed on the first surface 11 with conductive paste or sintered into a plurality of conductive lines 2 ◦. Wherein the conductive lines 20 are a plurality of materials containing a combination of a metal and a non-metal which are specially formulated. The metal materials such as silver and copper are 7 and the like. »Xuan and other complex LED components 3 are arranged on the first surface 1 1 in an array arrangement and are respectively soldered with silver paste or other conductive materials, respectively. The contact surface of the plurality of light-emitting diode elements 3 and the flexible substrate is covered with a transparent layer to form a protective layer (10) (not shown) to effectively increase the fixing effect of the light-emitting diode element 3. The conductive lines 20 are respectively extended in parallel parallel or staggered manner toward the peripheral edges of the flexible substrate process, and are collectively connected at the edges to form a plurality of conductive units 2 i, thereby effectively achieving electrical connection and providing For the electric current, wherein the conductive wires 2 are screen-printed with a conductive paste having a nanometer scale, formed or coated on a flexible substrate i by heating and buffing, and then sintered at a high temperature. . Please refer to the second figure, which is a front view of the display device of the first embodiment. The present invention prints or coats a plurality of conductive lines 2 on the first surface ii of the flexible substrate 1 at the same time. The peripheral edge region of a surface worker 1 prints the printing control circuit 4 同一 on the same plane or the back surface thereof, and electrically connects the printing control circuit 4 〇 to the conductive line 20 through the through hole, and is controlled by the printing After the conductive unit 4 1 of the circuit 4 is connected to the conductive lines 2 ,, the plurality of light emitting diode elements 3 黏 are pasted and disposed on the first surface 1 1 of the flexible substrate M403720 board 10, and The conductive cells 21 of the conductive lines 20 are electrically connected. By the print control circuit 40 and the patch type light-emitting diode element 3 provided on the side of the flexible substrate i ◦, the line arrangement on the surface of the flexible substrate 10 is effectively simplified, and the flexible substrate i is used. The flexible characteristics make the creation bendable and curled, which is convenient for carrying and convenient construction. Wherein, the plurality of conductive lines 2 are arranged to extend the area of the distribution according to actual use requirements, and can be printed by the multilayer display layer of the light-emitting diode element 30 and the conductive line 2 After an insulating layer is added, another display layer is directly overprinted, and electrical conduction between the display layers is achieved by means of multi-layer perforation, and the printing control circuit 4 is directly printed on the flexible substrate 0. The design can directly reach the connection mode of the electrical connection, and the soft plate shape design of the soft i1 substrate 1. It can effectively meet the space requirement of the display device in various forms and sizes, and effectively achieve the use area and the effect of elasticity. Referring to the third A and third B drawings, respectively, a front view of the second embodiment of the present invention and a back view of the second embodiment of the present invention, the print control circuit 40 can be directly printed on the flexible substrate. The second surface 12 of the crucible is electrically connected to the printing control circuit 4 of the second surface worker 9 M403720 2 by means of perforation directly on the flexible substrate i. Thereby, the utility of electrical connection, current stabilization and circuit control is effectively achieved. Wherein the printing control circuit 40 is directly printed on the peripheral edge of the flexible substrate 10 and directly connected to the plurality of conductive lines 2 ,, by the conductive lines 2 and the control structure being disposed together The flexible substrate 1 不仅 not only effectively achieves the function of connecting the conductive elements, but also eliminates the shortcomings of the jump point, and the flexible material properties of the flexible substrate i , make the creation applicable to various bent structural surfaces. . The fourth drawing is a partial enlarged view of the second embodiment of the present invention. The printing control circuit 4 is printed on the second surface 12 of the flexible substrate 10 so as to be oppositely disposed on the first surface. The back surface of the conductive line 2 on the surface 1 is used to simplify the line arrangement of the surface of the flexible substrate i, and the single substrate can be effectively used to set the surface area of the light-emitting diode element 30. Please refer to the fifth A diagram and the fifth b diagram, which are respectively a schematic diagram of the implementation state of the creation and a schematic diagram of another implementation state of the creation. This embodiment is the soft substrate of Xiang! The flexible characteristics are such that the hair and light diode elements 30 are disposed on the flexible substrate process, and then connected to the plurality of conductive lines 2 Q, and through the conductive lines 2 Q and the printed control circuits. 4 After the Q is electrically connected, the flexible substrate can be directly bonded to any plane or concave through the special design of the rotary type: M403720 surface. Please refer to FIG. 6A and FIG. 6B respectively, which are respectively a schematic diagram of the composition of the embodiment of the present invention and a schematic cross-sectional view of the embodiment of the present invention, taking a fixed-size flexible substrate 1 〇 as an example, if the display is effectively increased. In addition to the brightness of the color and the color, by connecting a plurality of flexible substrates to increase the display surface, a plurality of light-emitting diode elements 3 and a plurality of conductive lines 2 may be disposed directly on the same flexible substrate 1 . After forming a first display layer 1 0 1 and then directly coating an insulating layer 2 2 on the first display layer 110, the plurality of light emitting diode elements 30 are arranged in a matrix. The method is further disposed on the insulating layer 2 2 and then the conductive lines 2 are overlapped by printing heat baking or coating sintering, and electrically connected to the light emitting diode elements 3, thereby forming the first The second display layer 1 〇 2, in this way, according to the actual use requirements 'repeatedly coating another insulating layer 2 2 and then the illuminating diode element 3 〇 and the conductive line 2 〇 to form a third display layer 1 0 3 'Re-use The insulating layer 2 2 coated between the display layers is perforated to form the opening 23, so that the conductive lines 2 of the display layers are turned on to effectively electrically connect to form a display device of a multi-layer display structure. Please refer to the seventh figure, which is a schematic diagram of the first embodiment of the present invention. The light-emitting diode element 3 of the present embodiment can be an SMD (Surface Mount Device) surface mount package type of light-emitting diode M4037. .20, the body 3 1 of the LED component 30 is directly bonded to the first surface 1 1 of the flexible substrate 10, and the LEDs are respectively connected by two wires 3 2, 3 3 After the component 3 is turned on, it is fixed to the conductive trace 20 coated on the first surface 11 by soldering with silver paste or other conductive material, thereby achieving electrical conduction. Please refer to the eighth figure, which is a schematic diagram of the second embodiment of the present invention. The LED device 3 of the present invention can also be an LED package of the LED package without the package. The body 3 1 of the LED component 30 is directly bonded to the first surface 1 1 of the flexible substrate 1 , so that the two wires 3 2 , 3 3 of the LED component 3 directly After the conductive lines 20 are connected, an encapsulation layer 50 ′ is disposed on the first surface 11 to cover the LED body 3 and the wires 3 2 and 3 3 , thereby achieving package protection and electrical connection. The effect. ® Refer to the ninth diagram, which is a schematic view of a third embodiment of the present invention. The flexible substrate 10 is provided with a first surface 1 1 and a second surface 1 2 '. This embodiment is directly The second surface 1 2 is coated with a plurality of conductive lines 2 〇, and at the same time, a plurality of light-emitting diode elements 30 are directly adhered to the second surface 12 to make the light-emitting diode elements 3 The wires 3 2, 3 3 are electrically connected directly to the plurality of conductive lines 20 and the light emitting surface of the light emitting diode element 3 is disposed outward to provide an external light emitting through the flexible substrate 1 12 12 M4037.20 The function is as shown by the dashed line in the figure; in addition, the flexible substrate can be directly replaced by the substrate of the application surface according to the combination of the plurality of light-emitting diode elements 3 〇 and the flexible substrate 1 〇, and the like The plurality of light emitting diode elements 30 are disposed directly on the substrate of the application surface. Please refer to the tenth figure, which is a schematic diagram of a fourth embodiment of the present invention, in which a plurality of light emitting diode elements 3 are interleaved on the first surface i of the flexible substrate i 丄 and the second surface 1 2 respectively. 〇, the light source diode element 3 鲁 鲁 5 亥 亥 亥 亥 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射 发射The color display of the device is more detailed and bright. Please refer to the tenth-figure's schematic diagram of the light-emitting diode component of the present invention. The light-emitting diode component 3 can be a single-chip light-emitting diode component of a single color display or a single-chip light-emitting of a plurality of color displays. The invention consists of a two-pole body element, which is exemplified by a single-chip light-emitting diode element of a plurality of colors, which is composed of a single-chip light-emitting diode element 37 and a control circuit, wherein the single The wafer light emitting diode element 3.7 is composed of a red light emitting diode chip | a 34, a blue light emitting diode b chip unit 3 5 and a green light emitting diode chip unit 3 6 - special The microchip is integrally formed by combining the light emitting diode wafers into a single wafer light emitting diode element 37, and is combined with a special microchip of a 5 control circuit to form a light emitting diode element 3 13 Ο 'Making the LED element 3 ◦ form an element that provides a multi-color source. - wherein the special microchip has a control circuit designed to match the color display of the three color LED units. Please refer to the twelfth figure, which is a schematic diagram of the circuit of the present invention. The plurality of light-emitting diode elements 3 are disposed on the flexible substrate 1 透过 through different use requirements, and the plurality of conductive lines 2 and the radiation are respectively disposed. A plurality of conductive units 21 are formed by extending parallel to the peripheral edges of the flexible substrate 1 in parallel or in a staggered manner. As can be seen from the above, the structure of the present invention has the following practical advantages: By virtue of the flexible function of the flexible substrate, and directly printing the J or coating the plurality of conductive lines and the printed control circuit, not only softness can be achieved. The substrate is extended and connected according to actual needs, and further, a jump point condition for preventing connection between lines can be provided. Through the special material design of the flexible substrate, the application has a seamless effect between the connecting flexible substrate and the flexible substrate, and exhibits a close-contact state, which can be set according to actual needs. 'Small to vehicle windows, office brand names, etc., as large as the building's cylinder, signboard or glass curtain wall and other display devices. Through the flexible material property of the flexible substrate and the adhesive design of the adhesive type, the display device of the present invention can be applied to various planes or curved surfaces, and can be directly adhered to the application surface M403720 by pasting. And outside, and effectively expand its scope of application and simplify construction work. By directly superimposing the conductive circuit and the printing control circuit on the flexible substrate by means of hot-pressing or coating sintering of the multi-layer perforated printing, the luminous diode display device of the present invention can exhibit multiple colors, and Make the display light source of the display device more detailed and bright.
综上所述,本創作之軟板式發光二極體顯示裝置可 有效改善習用廣告看板、海報或是大型顯示看板之各種 缺點,其可利用軟性基板之特殊材質,使該軟性基板達 到延伸連結與組裝設置於不同的結構面,並透過背膠式 軟性基板之設置方式,使該軟板式發光二極體顯示裝置 達到組裝方便、維修簡易以及線路簡化之功效進而使 本創作之産品能達到更便利、更實用、更符合使用者之 所須’確已符合專射請須具備之新賴性、進步性以及 產業利用性之要件,爰依法提出專利申請。 惟以上所U,僅為本創作之較佳實施例而已,當 不能以此限定本創作實施之㈣;故,凡依本創作申請 專利範圍及說明書内容所作之等效變化與修錦,皆應仍 屬本創作專利涵蓋之範圍内。 【圖式簡單說明】 第-圖’係為本創作第一實施例顯示裝置之立體外觀 圖0 15 第圖係'為本創作第-實施例顯示裝置之正視圖。 第一 A圖係為本創作第二實施例之正視圖。 第三B圖,係盔士〜 兩本創作第二實施例之背視圖。 第四圖係為本創作第二實施例之局部放大圖。 第五A圖’係為本創作之實施狀態示意圖。 第五B圖’係為本創作之另__實施狀態示意圖。 第’、A目’係為本創作之實施例之組成示意圖。 第,、B圖’係為本創作之實施例之剖面示意圖。 第七圖’料本創作發光二極體之第—實施方式示意 圖。 第八圖,係為本創作發光二極體之第二實施方式示意 圖。 第九圖,係為本創作發光二極體之第三實施方式示意 圖。 第十圖,係為本創作發光二極體之第四實施方式示意 圖。 第十-圖,係為本創作之發光二極體元件示意圖。 第十二圖,係為本創作之線路示意圖。 【主要元件符號說明】 軟性基板10 第一顯示層101 第二顯示層102 M403720 第三顯示層1 〇 3 第一表面1 1 第二表面1 2 導電線路2 0 導電單元2 1 絕緣層2 2 開孔2 3 發光二極體元件3 0 座體3 1 接線3 2、3 3 紅光發光二極體晶片單元3 4 藍光發光二極體晶片單元3 5 綠光發光二極體晶片單元3 6 單晶片發光二極體元件3 7 印刷控制電路4 0 導電單元4 1 封裝層5 0In summary, the soft-plate LED display device of the present invention can effectively improve various shortcomings of conventional advertising billboards, posters or large display billboards, and can utilize the special material of the flexible substrate to make the flexible substrate reach the extended connection and The assembly is arranged on different structural surfaces, and the flexible-type light-emitting diode display device is arranged to achieve the advantages of convenient assembly, simple maintenance and simplified circuit, thereby making the product of the creation more convenient. It is more practical and more in line with the needs of the users. It has indeed met the requirements of new radiance, progress and industrial utilization that must be possessed by special shots. However, the above U is only a preferred embodiment of the present creation. When it is not possible to limit the implementation of this creation (4); therefore, the equivalent changes and amendments made in accordance with the scope of the patent application and the contents of the specification should be It is still covered by this creation patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view of a display device of a first embodiment of the present invention. FIG. The first A diagram is a front view of the second embodiment of the creation. Figure 3B, the helmets ~ The back view of the second embodiment of the two creations. The fourth drawing is a partial enlarged view of the second embodiment of the creation. Figure 5A is a schematic diagram of the implementation state of the creation. The fifth B diagram is a schematic diagram of another implementation state of the creation. The ', A' is a schematic diagram of the composition of the embodiment of the creation. Fig. 2 and Fig. 4 are schematic cross-sectional views showing an embodiment of the creation. Figure 7 is a schematic view of an embodiment of a light-emitting diode. The eighth figure is a schematic view of a second embodiment of the present light-emitting diode. The ninth drawing is a schematic view of a third embodiment of the present luminous diode. The tenth figure is a schematic view of a fourth embodiment of the present light-emitting diode. The tenth-figure is a schematic diagram of the light-emitting diode components of the present invention. The twelfth picture is a schematic diagram of the circuit of the creation. [Description of main component symbols] Flexible substrate 10 First display layer 101 Second display layer 102 M403720 Third display layer 1 〇3 First surface 1 1 Second surface 1 2 Conductive line 2 0 Conductive unit 2 1 Insulation layer 2 2 On Hole 2 3 Light Emitting Diode Element 3 0 Block 3 1 Wiring 3 2, 3 3 Red Light Emitting Diode Wafer Unit 3 4 Blue Light Emitting Diode Wafer Unit 3 5 Green Light Emitting Diode Wafer Unit 3 6 Single Wafer light-emitting diode element 3 7 Print control circuit 4 0 Conductive unit 4 1 Package layer 5 0