特別是’該顏色邊框,其成份可為油墨、顏色光阻等有機材 料或無機材料,但可實麵將範®#此植;又前述材料係 藉由印刷、塗佈、金屬驗等技術手段設置於該頂板的上表面周 緣部位,惟實施範圍並不以上述之技術手段為限。 特別是,該顏色邊框係使用有機材料形成的不透明或趨近於 不透明薄層,且該薄層的厚度約在35/zm以下。 特別是,該顏色邊框係使用無機材料形成的不透明或趨近於 不透明薄層,且該薄層的厚度約在15#111以下。 特別是,該顏色邊框亦可被預設在一薄膜基材上,然後在將 该薄膜基材貼覆於上該頂板上表面,使該顏色邊框形成在該頂板 的上表面周緣部位;該薄膜基材為具有實質透明材質的平面薄 層’其材料是選自於各種材質的薄膜,例如:聚碳酸醋^PC)、聚 脂(PET)、聚甲基丙烯酸甲酯(PMMA)或環烯烴共聚合物(c〇c)·.. 等,但實施的材料範圍不以前述材料為限。 此將於下文中進一步闡明本創作的其他功能及技術特徵,熟 習本技術者熟讀文中的說明後即可據以實現本創作。 【實施方式】 如后附各圖所示者係以電阻式觸控面板為本創作實施例,該 電阻式觸控感應器5被絕緣的設置在一頂板1與一基板2之間, 而該電阻式觸控感應器5可接受使用者以手指或筆尖按壓以輸 入,藉由碰觸瞬間產生一個電壓,且利用偵測該電壓值之變化以 確定手指或筆尖按壓位置。 其中,該基板2為-透明薄板,例如是玻璃薄板,在該基板 之上表面试置該電阻式觸控感應器5的下方電阻膜51 ,於該電 阻臈所包含的面積區域内佈設多數個均勾佈列的凸狀隔件52,以 及在該電阻膜51四周邊緣設有感應訊號的傳訊導路53,另,順沿 該傳訊導路53 塗布黏膠以職一侧狀的郷框54 (如第二 圖中該基板上虛線外側所界定的範圍);而該頂板j為一可撓性的 透明薄膜’例如·聚碳酸g旨薄膜,在該頂板丨底表面設置該電阻 式觸控感應器5的上方電阻膜55,以及於該電阻膜55侧邊設有用 來傳送該電阻式觸控感應器5訊號之傳訊導路56 ;當面板組合 時’該頂板1及基板2沿該黏谬框54而加壓膠合,令該上、下方 電阻膜55、51以分開一定間隙而對向配置。 另’在該頂板1的上表面還設有的周緣部位設有顏色邊框3, 且令該顏色邊框3恰可遮蔽該觸控感應器邊緣的傳訊導路53、56 部分’以達美化面板外觀之目的;而如第三圖所示者,該顏色邊 框3係使用銀金屬等無機材料藉由金屬蒸鍍技術而直接於該頂板 1上表面的周緣部位設置一層厚度約在15//m以下的不透明薄膜 或趨近於不透明薄膜,又,前述顏色邊框3亦可採用油墨、顏色 光阻等有機材料以印刷或各種塗佈的技術手段設置,而該顏色邊 框3的厚度約在35 ym以下;再如第四圖所示,該顏色邊框3係 被預設在一薄膜基材31,然後將該薄膜基材31貼覆於上該頂板1 上表面’並使該顏色邊框3恰可遮蔽觸控感應器的傳訊導路53、 56部分。 6In particular, the color frame can be made of organic materials or inorganic materials such as inks and color resists, but it can be used in the form of printing, coating, metal inspection, etc. It is disposed on the peripheral portion of the upper surface of the top plate, but the implementation range is not limited to the above technical means. In particular, the color border is opaque or close to an opaque thin layer formed using an organic material, and the thickness of the thin layer is about 35/zm or less. In particular, the color border is opaque or close to an opaque thin layer formed using an inorganic material, and the thickness of the thin layer is about 15#111 or less. In particular, the color frame may also be preset on a film substrate, and then the film substrate is pasted on the top surface of the top plate such that the color frame is formed on the peripheral portion of the upper surface of the top plate; The substrate is a planar thin layer having a substantially transparent material, the material of which is selected from various materials such as polycarbonate (PC), polyester (PET), polymethyl methacrylate (PMMA) or cyclic olefin. Copolymer (c〇c)·.. etc., but the range of materials to be implemented is not limited to the aforementioned materials. This will further clarify other functions and technical features of the present work, which will be realized by those skilled in the art after reading the description in the text. [Embodiment] As shown in the following figures, a resistive touch panel is a creative embodiment, and the resistive touch sensor 5 is insulated between a top plate 1 and a substrate 2, and the The resistive touch sensor 5 can accept that the user presses with a finger or a pen tip to input, generates a voltage by touching the moment, and detects the change of the voltage value to determine the finger or pen tip pressing position. The substrate 2 is a transparent thin plate, for example, a thin glass plate, and the lower resistive film 51 of the resistive touch sensor 5 is placed on the upper surface of the substrate, and a plurality of the area of the area included in the resistive ring are disposed. The convex spacers 52 are arranged in a row, and the communication guides 53 are provided with an inductive signal on the periphery of the resistive film 51, and the frame 54 of the adhesive side is coated along the communication guide 53. (as in the second figure, the range defined by the outside of the dotted line on the substrate); and the top plate j is a flexible transparent film, such as a film of polycarbonate, on which the resistive touch is disposed on the bottom surface of the top plate The upper resistive film 55 of the inductor 5 and the side of the resistive film 55 are provided with a communication guide 56 for transmitting the resistive touch sensor 5 signal; when the panel is combined, the top plate 1 and the substrate 2 are along the adhesive layer The frame 54 is pressure-bonded so that the upper and lower resistive films 55 and 51 are opposed to each other with a predetermined gap therebetween. In addition, a color border 3 is provided on the peripheral portion of the top surface of the top plate 1 so that the color frame 3 can cover the portion of the communication guide 53 and 56 of the edge of the touch sensor to enhance the appearance of the panel. For the purpose of the third embodiment, the color frame 3 is formed by using a metal material such as silver metal and directly on the peripheral portion of the upper surface of the top plate 1 by a metal evaporation technique to a thickness of about 15/m or less. The opaque film may be closer to the opaque film, and the color frame 3 may be disposed by using an organic material such as ink or color photoresist by printing or various coating techniques, and the color frame 3 has a thickness of about 35 ym or less. And as shown in the fourth figure, the color frame 3 is preset on a film substrate 31, and then the film substrate 31 is pasted on the upper surface of the top plate 1 and the color frame 3 is properly shielded. The communication sensor's communication path 53 and 56 parts. 6