200816518 九、發明說明: 【發明所屬之技術領域】 本發明係有關-種發光裝置之平面結構,特別是一 二極體發光裝置之平面結構。 ^ 【先前技術】 ,技術的進步與發展,發光二極體_ Emittmg _ 上扮演較輕重的地位,此種元件具有發熱量低、耗電量) 裝等優點,因此普遍應用於照明應用、以放=可:面封 示工具的產品上。 巾该以、電子顯 舉例來說,麵鍵築與魏美化朗上, == 變化的效果,不但可以具有良好的採光功能丄= 即月"性祕_紛、炫裝飾效果。細,f知的LED_ A多 :咖配合線路的佈設後固定或絲於-硬式且U明=ί: :::裝或固定方式限制了㈣應用產品的大小、尺寸、=透 【發明内容】 極體tmn顿,本發明目的之—係在提供—種發光二 極,沾ϋ # ^ ’且利職性平板上之透明圖案進行發光二 極體的電性連接,庙 …用衣衣飾玻璃門、玻璃隔間、室内設計時, 達到吴侖吴奐之目的。 本發明之又一 、目的係在提供一種發光二極體發光裝置之平 ° :、月‘電材料與透明絕緣圖案(pattern)製作於一撓性捲帶, 200816518 可堆璺一或多層發光二極體,增加發光二極體之配置多元且立 體化,進而更具娛樂及美觀之目的。 為了達到上述目的,本發明之一實施例提供一種發光二極 體發光裝置之平面結構,包含:一透明撓性捲帶;一第一透明 圖案及一第二透明圖案,係設置於透明撓性捲帶上,其中第一 透明圖案與第二透明圖案電性絕緣;及複數個發光二極體與第 一透明圖案電性連接。 以下藉由具體實施例配合所附的圖式詳加說明,當更容易瞭解本 發明之目的、技術内容、特點及其所達成之功效。 【實施方式】 以下係以一較佳實施例來說明本發明之發光二極體發光裝置之 平面結構。 請參閱第1A圖,為根據本發明之第一實施例之發光二極體發 光裝置之平面結構剖面示意圖。如圖中所示,發光二極體發光裝置包 含:一透明撓性捲帶100上設置一第一透明圖案與一第二透明 圖案120,第一發光二極體13〇利用一黏著結才集131設置於第 透明圖案上。於一實施例中,透明撓性捲帶100係以絕緣、 可生的材料製作,例如聚對苯二甲酸乙二醇_㈣你邮⑽ rephthai㈣,PET)、聚碳酸酉旨(pc) '定向聚丙稀(〇p C)、熱塑性輸旨_)、聚乙稀㈣、壓克力等高分子材料,但 S,日不限於此:其次,第—透明圖案,例如一第—透明導電線 導電透不明軸繼物(Indlum Tln⑽e,ITC))、壓克力 以網印或印刷的方物㈣馳Zmc 0xlde,ίζο)等透明導 透明導電線m 嫩轉⑽上。可㈣解的,第- …利用導電材料摻入染料等以增加可觀性。 6 200816518 請繼續參閱第1B圖,為根據本 ,發光裝置之平面結構剖面示意圖。於: 表面上,且利用==1 :透明撓性捲帶1。。之另- 130,設置於第—透明蓬二 豸设數個第-發光二極體 130,存盘第U明上;其中,第-發光二極體 丄川你興弟發先二極體130夺供#罢,, 裝置之透明嫌1ΠΠ + 日°又,。此,發光二極體發光 衣置之边月祕捲,100兩面之發光二極體13〇、⑽ 於本實細例中所增設之第_透明導電線iiq,之 比斑 第一實施例相同,因此不再贅述。 乂 /白-、 圖,1考第1C圖為第U圖或第1B圖單一表面之正視 :弟透月導笔線110或第一透明導電線11〇,包含若干不連 績的導電線段11 01 U帛一 g p P & 導雷綠no命络間隔,其中第一透明 導電線110與苐二透明圖f 12Q彼此為電 案120即利用撓性捲帶之矣品心、 豕#一透明圖 圖宏⑽介構成。可以選擇的,第二透明 I/。於本,"νφ用设置於換性捲帶之表面上的絕緣材料所構 -、类日1道H歹1 ’第一發光二極體130電性連接地跨設於第 僅r -顆1 110之不連績的兩$電線段1101之端點上(此處 t早Γ——發光二極體130示之)。根據上述,導電線段 的一端電性連接至外界之一或多個正極,另一端電性連 接至外界之-或多個負極,搭配一或多組正負電源線(圖令未 不)’以俾一利電性連接第一發光二極體130以及一正負極電源 (圖中未示)’利用正負極電源所供應之電力,驅動單個或多 個第一發光二極體130作動發光。要說明的是,本發明之第一 ,明導電線110不限於電性連接至一或多組正負電源線,亦可 電性連接i外界其他控制訊號線以控制第一發光二極體13〇 ,作動。因此’本發明中的第一發光二極體13〇可以為單晶或 多晶發光二極體,不侷限於單一種類的發光二極體。 200816518 參閱第2A圖,為根據本發明一 光裳置之平面結構剖面示意圖。發先之-上 性捲帶400上具有一第一透明圖i先二極裝置係包含一透明繞 為-透明導電臈420,其以-第二===例中’第一透明圖案係 r ., .^ 透月圖案410將透明導電膜420區分 成弟-區域460與第二區域。於本實施例中,透明導電膜· =匕述=销祕_編_物(聊㈣導, 鑛’印刷塗佈或貼附的方式形成於透明撓性捲帶上。 判刀於⑽道ί 例如雷射、化學敍刻、印刷或 ° 電膜42G上製作第二透明圖案410,例如—絕緣圖宰, 以形成第一區域46〇與第二區域47。, J =” 470係互為電性絕緣的。 〃中弟£域460與弟二區域 的正第2B 81 ’為第三實施例的發光二極體發光裝置平面結構 巴找46Γ=第—透9麵包含第—區域與第:區域,第— m Γ域各自可包含若干不連續的子區塊,彼此之間 外界的-或多個第-極㈤上未利,則第二區域二 斤=弟_區塊電性或實際連接至外界的—或多個第二極,其中第一極 ^極不相同。其次,發光二極體43〇跨設於絕緣圖案上,立 固==的正極固定於第一區域你。的子區塊時,其負極則 正極黛7〇上。因此’第一區域可連接至外界一或多個 極,弟一區域470則連接至外界一或多個負極。 生應解的’第二實施例中所提及之發光二極體發光裝置亦可衍 二嫌為又面没置,亦即,第—透明圖案與第二透明圖案可於透明挽 ㈣I之另—表面形成,以形成雙面之發光二極體發光裝置,发中, 捲帶兩 案之材質皆為導電材料’且透明挽性 弟透月圖案之材貝可相同,亦可靈活搭配應用壓克力導 笔透明膠、銦錫氧化物及銦鋅氧化物之至少任一;相同的,透明撓 8 200816518 之 _之材質可相同 ,亦可為透明撓性捲帶‘ 不:囬興_絕緣廢 發光二極體需交錯^二任—。惟,發光二極體發絲置兩面之 之視覺上效果3 方此達到雙面發光二極體發光裝置所欲呈現 裝置:===本發明之第四實施例之發光二極體發: Ήπ t ]面丁忍圖。透明撓性捲帶300上設置第一透明 :二一读日/、上述所有實施例之差異係在於,第二透明圖案更 I二四〜圖案化絕緣層340設置於第-透明圖案之上方(於 覆蓋部分第—透明導二7案係為-第-透明導電線310): 之兩端及欲放,並暴露出第一透明導電線3 明導電線光二極體330之處,被暴露出的第一透 一透明導電線31心、第弟—體330連接。其次,除了第 緣層340之上方透明圖案更包含在第一透明圖案化絕 導電線350之佈局係可^條第二透明導電線35〇°第二透明 二透明導電線350之上方V透明導電線310交錯配置,於第 光二極體360。於此實施2可設置並電性連接複數個第二發 線31〇或第一透明導電你中,第-透明圖案為第-透明導電 但不為限,第-透第第導電線350之1 ^實施例相同?::二:f另^ 多層之發光裝置;惟,發光二置平面結構’以形成雙面且 交錯設置,方能達到雙置兩面之所有發光二極體需 根據上述,本== 置所欲呈現之視覺上效果。 裝置可依照使用者之直奸,< 在' ^所提供的發光二極體發光 種應用組合之發光二^播以―或疊置多層 '單面或雙面之多 的彈性。 &構成可撓性的平面結構,增加應用上 9 200816518 小、^甚上至1目本發明犧菊發繼之平面結構可放置大 能輸出單色之/===,極體,例如使用單晶發光二極體(只 二忒zr設計上更具彈性。其次,利用透明撓性捲帶作為發光 二:喊體’如此可以設計剪裁成不同大小與形狀,甚至將製作二 =先_極體平面結構置人不同幾何形狀或大小的載板中,例如一呈 ^曲面的載板中,如此糊整個載板的造型設計。因此得 =截平面結構可應用於建築業的室内、淋浴間、玻璃幕牆;j 業的展示櫥窗、造型燈台、桌面裝飾等;或是廣告、室内空間設計應 用,或是顯示器面板等照明的應用上。 “ 參照第4A圖與第4B圖,將發光裝置1〇設置於兩透明基 板16與18之間,以形成發光二極體周邊產品,發光裝置1〇 的電源線17與接地線19則暴露於透明基板16與18外。其次, 一保護層21(interlayerfilm)介於發光裝置1〇與透明基板16或 18之間。於一實施例中,保護層21可以為聚乙烯醇縮丁醛 (poly(vinyl butyral),PVB)、EN、P〇lyethylenenapthalate (PEN)、聚乙一 乙酸乙脂(Ethyl Vinyl Acetate,EVA)或黏著膠(gei),但本發明不限於上 述。其次,保護層21的位置可以分布於整個發光裝置1〇上(如 第4 A圖)或是分布於四周(如苐4B圖)。透明基板16與18的 材質可以是玻璃、聚碳酸S旨(Poly Carbonate)、塑膠、壓合玻璃 (laminated glass)或壓合塑膠,但本發明不限於上述。 第5圖所示則為本發明之一實施例製作發光二極體平面結構 的流程示意圖。首先提供一撓性捲帶(步驟20),於撓性捲帶的 一面或兩面以適當的方式’例如濺鑛、蒸鑛、印刷、塗佈或壓膜 黏貼的方式形成透明導電膜(步驟22)。之後利用雷射切割、化 學餘刻或一般切割刀於透明導電膜上製作出絕緣圖案(步驟 24),於一實施例中,絕緣圖案包含若干線條以分割透明導電 膜為若干區塊,但本發明不限於此線條圖案。之後,於透明導 200816518 電膜的設計位置上製作黏著結構,例如以點膠的方式形成若干 導電黏著接點(步驟26)。接著,將發光二極體放置於黏著結構 (步驟28)。可以選擇的,亦可於發光二極體的兩接腳以浸膠&屮) 的方式,例如用銀膠或錫膏黏於兩腳使之導電的方式形成導電 黏著接點後直接放置於透明導電膜上。 第6圖所示為本發明之又一實施例之應用發光二極體平面結構 的流程示意圖。本發明之發光二極體平面結構可以固定於任何適當的 基板上,舉例來說’如帛1A圖製作出的發光二極體平面結構可根ς設 計需要裁成所需的大小以提供後續組裝之用(步驟30),此處亦可= 裁成所需的大小形狀之撓性捲帶後再製作成發光二極體平面結 構。接著將發光二鋪平面結構放置於兩基板之間(步驟Μ),例如兩° ΪΓΓΓ玻璃基板之間,於發光:極體平面結構與基板之間以填膠 的方式將保護膠填人其間之間隙(步驟34)以保護二 =雜⑽,佩嶋㈡辦__絲上,但可 =的,填膠的位置亦可位於發光二極體平面結構的四 結構放置於第-基板上之保護膠上,發光二極體平面 第二基板。 吵*上層保護膠,最後再覆以-點,々乃丰發明之技術思想及特 J其目的在使熟習此項技藝之人士能豹 攄每4 ^ 、 士肊夠瞭解本發明之内容並 貝方也,當不能以之限定本發明之哀j | 明撕姐— , a您寻利乾圍,即大凡依本發 專利範圍内。 ㈣涵盍在本發明之 【圖式簡單說明】 一實施例之發光二極體發光裝置之平面 第1A圖為根據本發明之第 結構剖面示意圖。 11 200816518 第1B圖為根據本發明之第二實施例之發光二極體發光裝置之平面 結構剖面示意圖。 第1C圖為根據第1A圖及1B圖之發光二極體發光裝置平面單一表面 正面示意圖。 第2A圖所示為根據本發明之第三實施例之發光二極體發光裝置之 平面結構剖面示意圖。 第2B圖所示為根據第2A圖之發光二極體發光裝置之平面結構正面示 意圖。 第3圖為根據本發明之第四實施例之發光二極體發光裝置之平面結 構剖面示意圖。 第4A圖與第4B圖為根據本發明之一發光二極體發光裝置之平面 結構所實施之發光裝置側面示意圖。 第5圖所示則為本發明之一實施例製作發光二極體平面結構的流 程不意圖。 第6圖所示為本發明之又一實施例之應用發光二極體平面結構的流 程不意圖。 【主要元件符號說明】 100 透明撓性捲帶 110 、 110, 第一透明導電線 1101 導電線段 120 第二透明圖案 130 、 130, 第一發光二極體 m 、 131, 黏者結構 12 200816518 200 透明撓性捲帶 210 第一透明導電線 230 第一發光二極體 240 絕緣層 250 第二透明導電線 260 第二發光二極體 300 透明撓性捲帶 310 第一透明圖案 330 第一發光二極體 340 第一透明圖案化絕緣層 350 第二透明導電線 360 第二發光二極體 400 透明撓性捲帶 410 第二透明圖案 420 透明導電膜 430 發光二極體 460 第一區域 470 第二區域 10 發光裝置 16、18 透明基板 17 電源線 13 200816518 19 21 20 22 24 26 28 30 32 34 接地線 保護層 提供撓性捲帶步驟 形成透明導電膜步驟 製作出絕緣圖案步驟 形成若干導電黏著接點步驟 發光二極體放置於黏著結構步驟 裁成所需的大小步驟 發光二極體平面結構放置於兩基板之間步驟 保護膠填入其間之間隙步驟 14200816518 IX. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention relates to a planar structure of a light-emitting device, and more particularly to a planar structure of a diode light-emitting device. ^ [Prior Art], the advancement and development of technology, the light-emitting diode _ Emittmg _ plays a relatively heavy position, this component has the advantages of low heat generation, power consumption, etc., so it is widely used in lighting applications. Put = can: face the product of the tool. For example, the surface of the key and the Wei Meihuan, == change effect, not only can have a good lighting function 丄 = that is, the month of "sex secret _ _, dazzle decorative effect. Fine, f know the LED_ A more: the coffee is matched with the wiring of the line after the fixed or silk-hard and U Ming = ί: ::: installed or fixed way limited (4) the size and size of the application product, = through [invention] The polar body tmnton, the purpose of the present invention is to provide a kind of light-emitting diode, and the transparent pattern on the professional flat plate is used to electrically connect the light-emitting diodes, and the temple is decorated with glass. When the door, the glass compartment, and the interior design, the purpose of Wu Lun Wu Hao is reached. Still another object of the present invention is to provide a light-emitting diode light-emitting device with a flat: a month's electrical material and a transparent insulating pattern formed on a flexible tape, 200816518 stackable one or more light-emitting two The polar body increases the configuration of the light-emitting diodes in multiple dimensions and is three-dimensional, which is more entertaining and beautiful. In order to achieve the above object, an embodiment of the present invention provides a planar structure of a light-emitting diode light-emitting device, comprising: a transparent flexible tape; a first transparent pattern and a second transparent pattern, which are disposed on the transparent flexible On the tape, the first transparent pattern is electrically insulated from the second transparent pattern; and the plurality of light emitting diodes are electrically connected to the first transparent pattern. The purpose, technical contents, features, and effects achieved by the present invention will become more apparent from the detailed description of the appended claims. [Embodiment] Hereinafter, a planar structure of a light-emitting diode light-emitting device of the present invention will be described with reference to a preferred embodiment. Referring to Fig. 1A, there is shown a schematic sectional view of a planar structure of a light-emitting diode light-emitting device according to a first embodiment of the present invention. As shown in the figure, the LED device includes a first transparent pattern and a second transparent pattern 120 on a transparent flexible web 100, and the first LED 13 is assembled by using an adhesive layer. 131 is disposed on the first transparent pattern. In one embodiment, the transparent flexible tape 100 is made of an insulating, viable material, such as polyethylene terephthalate (4), you (10) rephthai (four), PET), polycarbonate (pc) Polypropylene (〇p C), thermoplastic transmission _), polyethylene (four), acrylic and other polymer materials, but S, the day is not limited to this: Second, the first transparent pattern, such as a first transparent conductive line The transparent conductive conductive wire m is turned on (10) by the unidentified axis (Indlum Tln (10)e, ITC), the acrylic printing or printing of the square object (4) Chi Zmc 0xlde, ίζο). (4) Solution, ... - incorporating a dye or the like with a conductive material to increase the observability. 6 200816518 Please continue to refer to Figure 1B, which is a schematic cross-sectional view of the planar structure of the illuminating device according to the present invention. On: Surface, and with ==1: transparent flexible tape 1. . The other - 130, set in the first - transparent porch two sets of the first - light-emitting diode 130, save the first U Ming; among them, the first-light diode, Suichuan, you Xingdi, the first diode 130 For the #,, the device is too transparent 1ΠΠ + day ° again. Therefore, the side of the light-emitting diode illuminating garment, the two-sided light-emitting diode 13 〇, (10) the first transparent conductive line iiq added in the present embodiment, which is the same as the first embodiment Therefore, I will not repeat them.乂/白-, 图,1考第1C图 is the front view of the single surface of the U-picture or the first-figure 1B: the young pen-through pen line 110 or the first transparent conductive line 11〇, including a number of non-conforming conductive segments 11 01 U帛一gp P & guide mine green no no interval, wherein the first transparent conductive line 110 and the second transparent figure f 12Q are electrically connected to each other 120, that is, using a flexible tape, the core, 豕# transparent Tutuhong (10) is composed. Optional, second transparent I/. In the present, "νφ is constructed by an insulating material disposed on the surface of the flexible tape, and the first light-emitting diode 130 is electrically connected across the first r-shaped The end of the two 110 wire segments 1101 of 1 110 (where t is early - the light-emitting diode 130 shows). According to the above, one end of the conductive segment is electrically connected to one or more positive electrodes of the outside, and the other end is electrically connected to the outside or a plurality of negative electrodes, with one or more sets of positive and negative power lines (not shown). The first light-emitting diode 130 and a positive and negative power source (not shown) are electrically connected to each other to drive the single or plurality of first light-emitting diodes 130 to emit light. It should be noted that, in the first aspect of the present invention, the conductive line 110 is not limited to being electrically connected to one or more sets of positive and negative power lines, and may be electrically connected to other control signal lines of the outside to control the first light-emitting diodes 13〇. Acting. Therefore, the first light-emitting diode 13 本 in the present invention may be a single crystal or a polycrystalline light-emitting diode, and is not limited to a single type of light-emitting diode. 200816518 Referring to Figure 2A, there is shown a schematic cross-sectional view of a planar structure of a light skirt according to the present invention. The first-high-volume tape 400 has a first transparent pattern. The first two-pole device includes a transparent winding-transparent conductive 420, which is in the form of a second transparent image. . . . The through-moon pattern 410 divides the transparent conductive film 420 into the di-region 460 and the second region. In the present embodiment, the transparent conductive film is replaced by a transparent conductive film. The method of printing or coating is formed on a transparent flexible tape. The knife is at (10) ί For example, a second transparent pattern 410 is formed on the laser, chemical lithography, printing or film 42G, for example, an insulating pattern to form a first region 46A and a second region 47. J = "470 is electrically connected to each other. Sexually insulated. 〃中弟£ domain 460 and the second section of the second section of the second section of the second embodiment 81B 81. For the planar structure of the light-emitting diode illuminating device of the third embodiment, 46 Γ = — 透 9 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含The region, the m-th domain may each contain a plurality of discontinuous sub-blocks, and the outer-- or the plurality----(5) is unprofitable between the two, and the second region is two kilograms = brother_block electrical or actual Connected to the outside - or a plurality of second poles, wherein the first poles are different. Secondly, the light-emitting diodes 43 are spanned over the insulating pattern, and the positive pole of the fixed == is fixed to the first area. In the case of a sub-block, the negative electrode is on the positive electrode 黛7〇. Therefore, the first region can be connected to one or more poles of the outside world, and the first region can be connected to the region 470. One or more negative electrodes to the outside world. The light-emitting diode illuminating device mentioned in the second embodiment can also be dismissed, that is, the first transparent pattern and the second transparent The pattern can be formed on the surface of the transparent pull (four) I to form a double-sided light-emitting diode light-emitting device. In the hair, the material of both the tape and the tape is made of a conductive material, and the material of the transparent pull-through type is transparent. The same, can also be flexibly matched with at least one of acrylic pen transparent glue, indium tin oxide and indium zinc oxide; the same, transparent flexible 8 200816518 _ the material can be the same, can also be transparent flexible roll With 'No: Rejuvenation _ Insulation waste light-emitting diodes need to be interlaced ^ two---only, the light-emitting diode hair is placed on both sides of the visual effect 3 squares to achieve the double-sided light-emitting diode lighting device Device: ===Light-emitting diode of the fourth embodiment of the present invention: Ήπ t] face-to-face diagram. The transparent transparent tape 300 is provided with a first transparent: 21st reading day/, all the above embodiments The difference is that the second transparent pattern is more than two to four patterned insulating layer 340 Above the first transparent pattern (in the covering portion - the transparent conductive second 7 case is - the first transparent conductive line 310): both ends and to be placed, and exposing the first transparent conductive line 3, the conductive line light dipole At the body 330, the exposed first transparent conductive line 31 and the first body 330 are connected. Secondly, the transparent pattern above the edge layer 340 is further included in the first transparent patterned conductive line 350. The layout may be a second transparent conductive line 35〇. The second transparent transparent conductive line 350 is disposed above the V transparent conductive line 310, and is disposed in the photodiode 360. The implementation 2 can be set and electrically connected to the plurality of The second hair line 31〇 or the first transparent conductive one, the first transparent pattern is the first transparent conductive but not limited, the first through the first conductive line 350 is the same as the embodiment?:: two: f another ^ A multi-layered illuminating device; however, the illuminating two-plane structure 'to form a double-sided and staggered arrangement to achieve all of the two-sided two-sided light-emitting diodes according to the above, this == the desired visual effect. The device can be smuggled according to the user's smuggling, <<><<>>&Conforms a flexible planar structure, increasing the application of 9 200816518 small, ^ even up to 1 mesh. The present invention can be placed in a planar structure that can be placed in a large output of color /===, polar body, for example, Single crystal light-emitting diodes (only two 忒zr design is more flexible. Secondly, the use of transparent flexible tape as the light two: shouting body] can be designed to be cut into different sizes and shapes, and even will be made two = first _ pole The body plane structure is placed in a carrier plate of different geometric shapes or sizes, for example, in a carrier plate with a curved surface, so that the entire carrier plate is designed so that the frame structure can be applied to the interior and shower room of the construction industry. , glass curtain wall; j industry display window, modeling lamp stand, desktop decoration, etc.; or advertising, indoor space design applications, or display panels and other lighting applications. "Refer to Figure 4A and Figure 4B, the light device 1 The crucible is disposed between the two transparent substrates 16 and 18 to form a peripheral product of the light emitting diode, and the power line 17 and the ground line 19 of the light emitting device 1 are exposed to the outside of the transparent substrates 16 and 18. Secondly, a protective layer 21 ( Interlayerfilm) In the embodiment, the protective layer 21 may be polyvinyl butyral (PVB), EN, P〇lyethylenenapthalate (PEN), Ethyl Vinyl Acetate (EVA) or Adhesive (gei), but the present invention is not limited to the above. Secondly, the position of the protective layer 21 may be distributed over the entire illuminating device (as shown in Figure 4A) or It is distributed around (such as Figure 4B). The transparent substrates 16 and 18 may be made of glass, polycarbonate, plastic, laminated glass or laminated plastic, but the invention is not limited thereto. The above is a schematic flow chart for fabricating a planar structure of a light-emitting diode according to an embodiment of the present invention. First, a flexible tape (step 20) is provided on one or both sides of the flexible tape. Forming a transparent conductive film by means of, for example, splashing, steaming, printing, coating or laminating (step 22). Thereafter, an insulating pattern is formed on the transparent conductive film by laser cutting, chemical etching or a general dicing blade. (Step 24), Yu Yishi In an embodiment, the insulating pattern includes a plurality of lines to divide the transparent conductive film into a plurality of blocks, but the present invention is not limited to the line pattern. Thereafter, an adhesive structure is formed on the design position of the transparent conductive film 200816518, for example, in a dispensing manner. Forming a plurality of conductive adhesive contacts (step 26). Next, placing the light emitting diodes in the adhesive structure (step 28). Alternatively, the two pins of the light emitting diode may be dipped & The method is formed by, for example, bonding a silver adhesive or a solder paste to the two legs to make a conductive adhesive contact, and directly placing the conductive adhesive on the transparent conductive film. Fig. 6 is a flow chart showing the application of a planar structure of a light-emitting diode according to still another embodiment of the present invention. The planar structure of the light-emitting diode of the present invention can be fixed on any suitable substrate. For example, the planar structure of the light-emitting diode fabricated as shown in FIG. 1A can be cut to a desired size to provide subsequent assembly. For use (step 30), it can also be cut into a flexible tape of the required size and shape to form a light-emitting diode planar structure. Then, the light-emitting two-ply planar structure is placed between the two substrates (step Μ), for example, between two ΪΓΓΓ glass substrates, and the protective rubber is filled between the polar body planar structure and the substrate by filling the glue. The gap (step 34) protects the two = (10), and the 嶋 二 (2) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ On the glue, the second substrate of the light-emitting diode plane. Noisy * upper layer of protective glue, and finally covered with - point, the technical ideas of the invention and the purpose of the special J in order to enable those skilled in the art to be able to leopard every 4 ^, the gentry knows the content of the invention and Fang also, when it is not possible to limit the invention of the sorrow j | Ming Tear sister -, a you find the benefit of the Wai Wai, that is, the majority of the scope of the patent. (Four) Fig. 1A is a schematic cross-sectional view showing a structure of a light emitting diode according to an embodiment of the present invention. 11 200816518 Fig. 1B is a schematic cross-sectional view showing the planar structure of a light-emitting diode light-emitting device according to a second embodiment of the present invention. Fig. 1C is a front elevational view showing the planar single surface of the light-emitting diode illuminating device according to Figs. 1A and 1B. Fig. 2A is a cross-sectional view showing the planar structure of a light-emitting diode illuminating device according to a third embodiment of the present invention. Fig. 2B is a front elevational view showing the planar structure of the light-emitting diode light-emitting device according to Fig. 2A. Fig. 3 is a schematic sectional view showing the planar structure of a light-emitting diode illuminating device according to a fourth embodiment of the present invention. 4A and 4B are schematic side views of a light-emitting device implemented in accordance with the planar structure of a light-emitting diode light-emitting device according to the present invention. Fig. 5 is a schematic view showing the flow of a planar structure of a light-emitting diode according to an embodiment of the present invention. Fig. 6 is a view showing the flow of the application of the planar structure of the light-emitting diode according to still another embodiment of the present invention. [Main component symbol description] 100 transparent flexible tape 110, 110, first transparent conductive wire 1101 conductive segment 120 second transparent pattern 130, 130, first light emitting diode m, 131, adhesive structure 12 200816518 200 transparent Flexible tape 210 first transparent conductive line 230 first light emitting diode 240 insulating layer 250 second transparent conductive line 260 second light emitting diode 300 transparent flexible tape 310 first transparent pattern 330 first light emitting diode Body 340 first transparent patterned insulating layer 350 second transparent conductive line 360 second light emitting diode 400 transparent flexible tape 410 second transparent pattern 420 transparent conductive film 430 light emitting diode 460 first region 470 second region 10 illuminating device 16, 18 transparent substrate 17 power line 13 200816518 19 21 20 22 24 26 28 30 32 34 The grounding wire protection layer provides a flexible tape step to form a transparent conductive film step to make an insulating pattern step to form a number of conductive adhesive contacts step The light-emitting diode is placed in the adhesive structure step and cut into the required size steps. The light-emitting diode planar structure is placed on the two substrates. Step between protective glue filling gaps between steps 14