M355395 五、新型說明: f新型所屬之技術領域】 本創作係關於-種觸控面板,尤 償之觸控面板透明導電膜。 ......效電極補M355395 V. New description: f new technology field] This creation is about a kind of touch panel, especially the touch panel transparent conductive film. ......effect electrode
f先前技術J 自.却的電容式觸控面柘 係包含複數電極组各電極組(3G)係包含複數^導電膜 線(32)串接—起的電極(31);或者如_ 错由導 明導電膜’係包含複數規則排列 不之另-種透 係分別透過導_接匯集至透明導(:= =卜此兩種__尚未經過特電 同的關係而產生明顯的線路 先線折射率不 係以多層薄膜進行堆疊,藉述特殊薄膜處理f Prior art J self-contained capacitive touch surface tanning system comprising a plurality of electrode groups each electrode group (3G) comprising a plurality of conductive film lines (32) connected in series (31); or It is shown that the conductive film 'includes a plurality of regular arrays that are not aligned with each other through the conduction-collection to the transparent guide (:= = 卜 _ these two __ have not been subjected to the same electrical relationship to produce significant line precursor refraction Rate is not stacked with a multilayer film, with special film processing
Si IS難:Γ對於製品之均-化控制難度也= 工程,所以耗費工時成本多問㈣再追加特殊薄膜處理 【新型内容】Si IS is difficult: Γ The difficulty of controlling the homogenization of the product is also = engineering, so the cost of working hours is much more. (4) Additional special film processing is added. [New content]
由上述說明可知,+ A 進行特殊薄脬卢 σ電谷式觸控面板製品表面須再 坏'’專處理,用以分 膜層之η » # _ Q外觀線路浮現問題,但因各 對提g+ 门使衣σο之均一化控制難度相 知同且相對耗費工時成本多。 M355395 有鑒於此,太备丨於+ + 1 ^ 創作之主要目的係提供一種且盔效雷炻 補償之觸控面板锈昍道十时 八…政電極 改盖外μ 膜,無須進行特殊薄膜處理即可 目的。 〖現問喊,並可節省工時及縮短製程工序之 右人達上述目的所使用之主要技術 面板透明導電膜係包含: 又1之觸控 一薄膜; 一可視區,係規劃於該薄膜上; 數感應電極組’係彼此間隔分布於該可視 由導線電性延伸匯集至 含至少一感應電極;以及[外側’各感應電極組係包 複數無效電極,係站 1 應電極之區域。' §更於該可視區上未設有感 由於無效電極係填補未設於 φ 導電膜在可視區域内呈現較為平;二透3域,使透明 及色度,可改善圖形及線路浮現的問題,率以 感應電極於同-製程完成,因此不需增加任;;u 工時成本。 仕彳可先罩治具及 【實施方式】 請參考第一圖所示,俜太 1乐本創作具無效I k Μ 面板透明導電膜之第一實& 本補仂之觸控 弟只她例的平面示意圖,係包含. 一薄膜(10) ; ^ 3 · -可視區’係規劃於該薄膜(1〇)上; 4 M355395 複數感應電極組(彳彳),係彼此間隔分布於該可視區上 並經由導線(12)電性延伸匯集至該可視區一側,各感應電 極組(11)係包含至少一感應電極(11〇),本實施例中,各感 應電極組(11)係具有複數個串接一起的感應電極(11〇广以 及 複數無效(Dummy)電極(13),係彼此獨立設於該可視 區上未設有感應電極(11〇)之區域,本實施例中,各無效電 極(1 3)之开y狀係對應各感應電極(11 〇)之形狀與大小。 再如第二及第三圖所示,前述無效電極(13)除了對應 感應電極(11Q)之形狀大小外,每—無效電極◦ 3)並進一步 分割成數個次無效電極(130),以使整個可視區的材料分佈 更為均勻。 、或者如第四及第五圖所示,各感應電極組”係包含 感應電極(110),各感應電極(彳1Q)分別於—端形成導線㈠2) 而共同延伸匯集至可視區一側,以與—控制電路㈣相連 ^ 本只鈿例中,6亥些無效電極(1 3)係呈細小方格狀而 岔集分布於未設有感應電極⑴〇)之區域,由於無效電極⑽ 形狀細小’故亦可填補於感應電極⑴〇)之導線(12)響折處、 匯集處等,而維持材料分布均勻。 由於無效電極(13)與感應電極⑴〇)位於同層且均由相 同透明導電材料所構成,在 泞望丄p 在材枓光透過率、反射率以及色 度4光學特性完全—致, 片 节、t ,§…、效電極(1 3)在不作訊 唬冷通情況下填補了可視區 u•上禾5又於感應電極(110)之區 s ,可使可視區整體的光透 — 案底色浮現的問題。 丨車乂為至丈而改善線路或圖 5 M355395 再者,無效電極(13彳 成,因此不需增加任何弁V、感應電極(11〇)於同-製程完 質要求較低之觸控面板^治具U時成本,對於光學品 製程而大幅降低成本· °°,可’去習知之光學薄膜處理 製品可加強光學薄”^=學品質要求較高之觸控面板 良率。 料程之效果與穩定性而大幅提高製程 【圖式簡單說明】 第一圖: 本創作第一 貫知例之平面示意圖 第二圖: 本創作第二 實把例之平面示意圖 第三圖: 係第二圖之局部放大圖。 第四圖: 本創作第三 實施例之平面示意圖 第五圖: 係第四圖之局部放大圖。 第六圖: 習知一透明導電膜之平面示意圖 第七圖: 習知另一透明導電膜之平面示意 【主要元件符號說明】 (1〇)薄膜 (11)感應電極組 (11 〇)感應電極 (12)導線 (1 3)無效電極 (1 3 0)次無效電極 (20)控制電路 (30)電極組 (31)電極 (32)導線 (40)電極 (41)導線 (42)控制電路 6It can be seen from the above description that the surface of the special thin 脬 σ 电 电 谷 谷 touch panel product must be treated as a special treatment for the η » # _ Q appearance line of the film layer, but because of the various The g+ door makes the uniformity of the clothing σο control the same difficulty and costs more labor. M355395 In view of this, the main purpose of the creation is + + 1 ^ The main purpose of the creation is to provide a helmet-loaded Thunder compensation touch panel rust ramp 10:8 ... political electrode to cover the outer μ film, no special film treatment It can be used. The main technical panel transparent conductive film used in the above-mentioned purpose is to include: one touch-film; one visible area, which is planned on the film; The number of sensing electrode groups are spaced apart from each other by the electrical extension of the wires to the at least one sensing electrode; and [the outer side of each of the sensing electrode groups is a plurality of invalid electrodes, and the region of the station 1 is an electrode. §There is no feeling in the visible area. Because the invalid electrode system is not set in the φ conductive film, it is flat in the visible area; the second transparent 3 field makes the transparency and chromaticity improve the appearance of graphics and lines. The rate is completed by the induction electrode in the same process, so there is no need to increase the cost;仕彳可盖具具 and [Implementation] Please refer to the first figure, 俜太1乐本作品用 invalid I k Μ panel transparent conductive film first real & A schematic plan view of the example includes: a film (10); ^ 3 · - visible area ' is planned on the film (1〇); 4 M355395 a plurality of sensing electrode sets (彳彳), which are spaced apart from each other in the visible The sensing electrode group (11) includes at least one sensing electrode (11〇), and in the embodiment, each sensing electrode group (11) is connected to the visible area via a wire (12). In the embodiment, a plurality of sensing electrodes (11 Å and Dummy electrodes) are arranged independently of each other in the visible region (11 〇). The opening y of each invalid electrode (13) corresponds to the shape and size of each sensing electrode (11 〇). As shown in the second and third figures, the invalid electrode (13) is not only corresponding to the sensing electrode (11Q). In addition to the size of the shape, each - invalid electrode ◦ 3) and further divided into several times of invalid electricity The pole (130) is such that the material distribution throughout the viewing zone is more uniform. Or, as shown in the fourth and fifth figures, each of the sensing electrode groups includes an inductive electrode (110), and each of the sensing electrodes (彳1Q) forms a wire (a) 2 at the end, and is collectively extended to one side of the visible region. Connected to the - control circuit (4) ^ In this example, the 6-inch invalid electrode (1 3) is in a small square shape and is distributed in the region where the sensing electrode (1) is not provided, due to the shape of the invalid electrode (10) It can also be filled in the wire (12) of the sensing electrode (1) 〇), the distribution point, etc., while maintaining a uniform material distribution. Since the invalid electrode (13) and the sensing electrode (1) 〇 are in the same layer and are all the same The transparent conductive material is composed of the optical properties of the material, the reflectivity and the chromaticity of the material, and the optical characteristics of the film, the t, the §..., and the effect electrode (1 3) are not communicated. In the case of filling the visible area u• Shanghe 5 and the area s of the sensing electrode (110), the light permeation of the entire visible area can be raised. The problem is that the background color appears. M355395 In addition, the invalid electrode (13 彳, so no need to add any V, the sensing electrode (11 〇) in the same process - the lower requirements of the touch panel ^ fixture U cost, for the optical process significantly reduced cost · ° °, can be 'known optical film processing products can Strengthen the optical thinness ^^=The quality of the touch panel with high quality requirements. The effect and stability of the material process greatly improve the process [Simple description of the drawing] The first picture: The schematic diagram of the first example of this creation Figure 2: The third schematic diagram of the second actual example of the creation: a partial enlarged view of the second figure. The fourth figure: the fifth schematic view of the third embodiment of the present creation: a partial enlargement of the fourth figure Fig. 6: Schematic diagram of a transparent conductive film of the prior art. Figure 7: Schematic diagram of another transparent conductive film [Main component symbol description] (1〇) Thin film (11) Inductive electrode group (11 〇) Induction electrode (12) wire (1 3) invalid electrode (1 30) secondary invalid electrode (20) control circuit (30) electrode group (31) electrode (32) wire (40) electrode (41) wire (42) control Circuit 6