M410284 五、新型說明: 【新型所屬之技術領域】 本創作是一種觸控面板,特別是指一種具金屬質感的 觸控面扳。 【先前技術】M410284 V. New description: [New technical field] This creation is a touch panel, especially a touch panel with a metallic texture. [Prior Art]
請參考圖9所示之觸控產品之觸控結構,主要是在一 觸控面板80上側設置一保護玻璃(Cover lens )81,其中保 護玻璃81的邊框區域下側會形成遮蔽層81〇,以避免觸控 面板80旁側的線路因外露而有礙觀瞻。使用者可觸壓該 保護玻璃81,觸控面板80可感應出信號並進行對應的觸 控動作。 目前觸控面板80與保護玻璃81的結合結構,係在觸 控面板80與保護玻璃81之間設有黏著膠82(如光學膠膜 或水膠)’藉由該黏著膠82將觸控面板8〇與保護玻璃 彼此貼合固定。 、ΤΓ你,7、,石铂耆膠^^在 保護玻璃81或觸控面& 80之間形成氣泡,則保護玻璃 81或觸控面板80即不能完全緊密貼合,或在貼合過程中 保護玻璃81與觸控面板80之間可能會有位置上的偏差, 將導致增加產品的報廢率;此外,購買黏著膠⑽、 護玻璃81與觸控面板8〇作業,皆是導致成 因;綜合以上所述,習用觸控結構確有改良的必要。 M410284 【新型内容】 本創作的主要目的是提供一種觸控面板,希望改善習 知觸控面板因為貼合玻璃保護層而導致產品報廢與提高成 本的技術缺陷。 ° 為達前揭目的,本創作所採用的技術手段是提供一種 具金屬質感的觸控面板,其包含有: 一基板,區分為一作動區與一非作動區,該非作動區 形成在該作動區外圍; 一金屬遮蔽層,係形成在該基板上之非作動區; 一絕緣層,形成在該金屬遮蔽層表面; 複數第一軸向線路,形成在該作動區上; 複數第二軸向線路,係形成在該作動區上且與該複數 第一轴向線路絕緣交錯排列;以及 複數信號線路,係形成在該絕緣層表面,且分別與對 應的第一轴向線路與第二軸向線路電性接觸。 藉本創作之設計,直接在單一個基板上形成金屬遮蔽 層,並在金屬遮蔽層上形成信號線路,因金屬具不透光之 特性,當本創作安裝在螢幕上時’金屬遮蔽層即可遮蔽信 號線路H、二軸向線路與金屬遮蔽層只在單一基板 上成形,相較於先前技術,本創作未使用黏膠貼合,不但 免除貼合可能導致的氣泡問題,也降低黏膠與材料的購買 成本,以及貼合作業的製造成本。 【實施方式】 時,係在一基板1 0上 請參考圖1所示,製作本創作 M410284 區分為一作動區100及一非作動區101,該非作動區1〇1 形成在該作動區100外圍。 請參考圖2所示,於該非作動區1〇1上形成一金屬遮 蔽層20,以及在該作動區100上形成複數金屬導線411,’" 所述金屬導線411可為X軸導線或γ軸導線,在此以χ 轴導線為例說明。該作動區100是指後續欲形成電極圖案 層的所在區域。 請參考圖3所示,在金屬遮蔽層2〇表面同時形成一 • 絕緣層31及一架橋絕緣層32,該架橋絕緣層32覆蓋在 每一金屬導線411表面,但仍維持將金屬導線411兩端部 外露。 請參考圖4所示’在該作動區1〇〇上形成一電極圖案 層’該電極圖案層包含複數第一軸向電極41〇、複數第二 轴向線路42以及複數信號線路50。本實施例中,第一轴 向電極410為X軸電極,χ軸電極係局部覆蓋至架橋絕緣 層32 ’使相鄰的χ軸電極藉由架橋絕緣層32下方的金屬 籲 導線411構成電性連接’ X轴電極與金屬導線411共構形 成X軸線路層’即第一軸向線路41;該第二軸向線路42 即Υ軸線路層’係交錯於第一軸向線路41,包含有複數個 Υ轴電極420與連接兩γ轴電極420的Υ軸導線421,其 中Υ軸導線421係形成在架橋絕緣層32上方而避免電性 接觸X軸線路層;該複數信號線路50係形成在絕緣層31 表面’且分別與對應的X軸線路層或γ軸線路層電性接 觸’以將X轴線路層與Υ軸線路層電連接至外部的控制電 路》 5 M410284 月搭配參考圖5所示第一較佳實施例之剖視圖,如上 述完成本創作的第一較佳實施例,係包含有一基板1〇、一 金屬遮蔽層20、一 ^ B, O i ^ 名緣層31、複數架橋絕緣層32、複數 第一轴向線路41、逄貉贫一 &丄a 複數第一軸向線路42與複數信號線路 50。 該基板10區分為-作動區1〇〇及-非作動區101, 該非作動H 101形成在該作動區’ 〇〇外圍該金屬遮蔽層 2〇係形成在該非作動區1〇1 i,該絕緣層31形成在該金 屬遮蔽層2G表面’該複數第—轴向線路μ與複數第二轴 向線路42係交錯形成在該作動& 1〇〇上,且交錯的第一 軸向線路41與第―轴向線路42之間^有架橋絕緣層 、電陡隔離,該複數信號線路5〇係形成在絕緣層表 面’且分別與對應的第-軸向線路41與第二轴向線路42 電性接觸’以將第一軸向線路41與第二軸向線路42電連 接至外部的控制電路。 丄口 π參考圖6所不第二較佳實施例之剖視圖係可在各 仏號線路50表面以印刷方式形成銀膠層7〇,藉以提升第 ―、二軸向線路41、42連接至外部電路的導電效果。 請參考圖7所示第三較佳實施例之剖視圖,可在該作 動區100上形成-保護光ρ且層6G,且該保護光阻層6〇可 覆蓋第-、二軸向線路41、42β當本實施例安裝在登幕上 時從螢幕發出的光先通過保護光阻層60,才穿透基板 1〇或第―、二轴向線路41、42,該保護光阻層6〇可使得 :線折射率趨近一致,而有效改善使用者從觸控面板觀看 愛幕時的色差。 M410284 請參考圖8所示第四較佳實施例之剖視圖,係同時形 成該保護光阻層60與銀膠層70,使觸控面板同時具備增 加導電效果與改善色差功效。 综合以上所述’因金屬遮蔽層20具有不透光的特 性,故本創作安裝在螢幕上時,係可遮蔽複數信號線路 50,避免信號線路50露出而有礙觸控產品的觀感;是 以,本創作僅在單一基板1〇上完成遮蔽信號線路5〇的金 屬遮蔽層20以及觸控感應用的線路層,相較於先前技術 籲使用兩板貼合方式,係避免因貼合過程可能導致的產品缺 陷(如氣泡)’進一步提升了觸控面板的製程良率;且本創 作只使用單一基板1〇,並未使用黏膠及進行貼合作業大 幅地減少製造與材料成本。 此外’因為金屬遮蔽層2〇本身具有獨特的金屬光 澤,使用本創作的觸控產品,係多了 一般觸控產品無法達 到的金屬質感,提高產品的附加價值,刺激消費者的購買 欲望。 【圖式簡單說明】 圖1:本創作於一基板區分為作動區與非作動區之平 面示意圖。 圖2·本創作於一基板表面形成金屬導線與金屬遮蔽 層之平面示意圖。 圖3.本創作於金屬遮蔽層與金屬導線上形成絕緣層 與架橋絕緣層之示意圖。 圖4:本創作之第一較佳實施例平面示意圖。 7 M410284 圖5:圖4之剖視示意圖。 圖6 :本創作之第二較佳實施例剖視示意圖。 圖7 :本創作之第三較佳實施例剖視示意圖。 圖8 :本創作之第四較佳實施例剖視示意圖。 圖9:習知觸控面板與保護玻璃結合示意圖。 【主要元件符號說明】 10基板 1 01非作動區 31 絕緣層 41 第一轴向線路 41 1金屬導線 420 Y軸電極 50信號線路 70銀膠層 80觸控面板 810遮蔽層 100作動區 20金屬遮蔽層 32架橋絕緣層 410第一轴向電極 42第二軸向線路 421 Y軸導線 60保護光阻層 81保護玻璃 82黏著膠Referring to the touch structure of the touch control device shown in FIG. 9 , a cover lens 81 is disposed on the upper side of the touch panel 80 , and a shadow layer 81 is formed on the lower side of the frame region of the cover glass 81 . To prevent the line on the side of the touch panel 80 from being exposed due to exposure. The user can touch the protective glass 81, and the touch panel 80 can sense the signal and perform corresponding touch control actions. At present, the bonding structure of the touch panel 80 and the protective glass 81 is provided with an adhesive 82 (such as an optical adhesive film or a water gel) between the touch panel 80 and the protective glass 81. The touch panel is used by the adhesive 82. 8〇 and protective glass are attached to each other. , ΤΓ , , 7, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , There may be a positional deviation between the protective glass 81 and the touch panel 80, which will increase the scrap rate of the product; in addition, the purchase of the adhesive (10), the cover glass 81 and the touch panel 8 are all causes; In summary, the conventional touch structure does have the need for improvement. M410284 [New Content] The main purpose of this creation is to provide a touch panel, which is intended to improve the technical defects of the conventional touch panel due to the adhesion of the glass protective layer and the cost reduction of the product. ° For the purpose of the prior art, the technical means adopted by the present invention is to provide a touch panel with a metallic texture, comprising: a substrate, which is divided into an active area and a non-actuating area, wherein the non-actuating area is formed at the actuation a metal shielding layer formed on the non-actuating region on the substrate; an insulating layer formed on the surface of the metal shielding layer; a plurality of first axial lines formed on the active region; and a plurality of second axial directions a circuit formed on the active region and staggered with the plurality of first axial lines; and a plurality of signal lines formed on the surface of the insulating layer and respectively corresponding to the first axial line and the second axial direction Electrical contact with the line. By the design of the creation, a metal shielding layer is formed directly on a single substrate, and a signal line is formed on the metal shielding layer. Because the metal has an opaque property, when the creation is mounted on the screen, the metal shielding layer can be The shielding signal line H, the two-axis line and the metal shielding layer are formed only on a single substrate. Compared with the prior art, the present invention does not use adhesive bonding, which not only eliminates the bubble problem that may be caused by the bonding, but also reduces the viscosity and the adhesive. The cost of purchasing the materials and the manufacturing costs of the cooperating industry. [Embodiment] When referring to FIG. 1 on a substrate 10, the creation M410284 is divided into an actuation zone 100 and a non-actuation zone 101, and the non-actuation zone 1〇1 is formed on the periphery of the actuation zone 100. . Referring to FIG. 2, a metal shielding layer 20 is formed on the non-actuating region 1〇1, and a plurality of metal wires 411 are formed on the active region 100, and the metal wires 411 may be X-axis wires or γ. Shaft wire, here is an example of a 轴-axis wire. The actuation zone 100 refers to the area where the electrode pattern layer is to be formed later. Referring to FIG. 3, an insulating layer 31 and a bridge insulating layer 32 are simultaneously formed on the surface of the metal shielding layer 2, and the bridging insulating layer 32 covers the surface of each of the metal wires 411, but the metal wires 411 are still maintained. The end is exposed. Referring to Fig. 4, 'an electrode pattern layer is formed on the active region 1'. The electrode pattern layer includes a plurality of first axial electrodes 41A, a plurality of second axial lines 42, and a complex signal line 50. In this embodiment, the first axial electrode 410 is an X-axis electrode, and the x-axis electrode is partially covered to the bridging insulating layer 32 ′ so that adjacent x-axis electrodes are electrically connected by the metal-clad wire 411 under the bridging insulating layer 32. Connecting the 'X-axis electrode and the metal wire 411 to form an X-axis circuit layer', that is, the first axial line 41; the second axial line 42, that is, the 线路-axis circuit layer' is interlaced with the first axial line 41, including a plurality of x-axis electrodes 420 and a x-axis wire 421 connecting the two γ-axis electrodes 420, wherein the x-axis wires 421 are formed over the bridging insulating layer 32 to avoid electrical contact with the X-axis circuit layer; the complex signal line 50 is formed in The surface of the insulating layer 31 is electrically connected to the corresponding X-axis circuit layer or the γ-axis circuit layer to electrically connect the X-axis circuit layer and the X-axis circuit layer to the external control circuit. 5 M410284 A cross-sectional view showing a first preferred embodiment, as in the first preferred embodiment of the present invention, comprising a substrate 1 , a metal shielding layer 20 , a ^ B , an O ^ ^ edge layer 31 , and a plurality of bridges Insulation layer 32, plural first axial lines 41, 逄貉Lean one & 丄a plural first axial line 42 and complex signal line 50. The substrate 10 is divided into an active area 1〇〇 and a non-actuating area 101, and the non-actuating H101 is formed at a periphery of the active area '〇〇. The metal shielding layer 2 is formed in the non-actuating area 1〇1 i, the insulation The layer 31 is formed on the surface of the metal shielding layer 2G. The plurality of first-axial lines μ and the plurality of second axial lines 42 are alternately formed on the actuation & 1〇〇, and the first axial lines 41 are staggered. There is a bridge insulating layer between the first-axial line 42 and an electrical steep isolation. The complex signal line 5 is formed on the surface of the insulating layer and electrically connected to the corresponding first-axis line 41 and second axial line 42 respectively. Sexual contact 'to electrically connect the first axial line 41 and the second axial line 42 to an external control circuit. Referring to FIG. 6 , a cross-sectional view of the second preferred embodiment of FIG. 6 can form a silver paste layer 7 印刷 on the surface of each nickname line 50 to enhance the connection of the first and second axial lines 41 and 42 to the outside. The conductive effect of the circuit. Referring to the cross-sectional view of the third preferred embodiment shown in FIG. 7, a protective light ρ and a layer 6G may be formed on the active region 100, and the protective photoresist layer 6 覆盖 may cover the first and second axial lines 41, 42β When the light emitted from the screen is installed on the screen in this embodiment, the light is first passed through the protective photoresist layer 60 to penetrate the substrate 1 or the first and second axial lines 41 and 42. The protective photoresist layer 6 can be used. Therefore, the refractive index of the line is nearly uniform, and the chromatic aberration when the user views the love screen from the touch panel is effectively improved. M410284 Referring to the cross-sectional view of the fourth preferred embodiment shown in FIG. 8, the protective photoresist layer 60 and the silver paste layer 70 are simultaneously formed, so that the touch panel has the effects of increasing the conductive effect and improving the chromatic aberration. In view of the above, because the metal shielding layer 20 has opaque characteristics, when the present invention is installed on the screen, the plurality of signal lines 50 can be shielded to prevent the signal line 50 from being exposed and hinder the perception of the touch product; The present invention only completes the metal shielding layer 20 of the shielding signal line 5〇 and the circuit layer of the touch sensing application on the single substrate 1〇, compared with the prior art, the two-plate bonding method is adopted, thereby avoiding the possibility of the bonding process. The resulting product defects (such as bubbles) further improve the process yield of the touch panel; and this creation uses only a single substrate, and does not use adhesives and pastes to significantly reduce manufacturing and material costs. In addition, because the metal shielding layer 2 itself has a unique metallic light, the use of the touch product of the present invention is more than the metal texture that the general touch product cannot achieve, which increases the added value of the product and stimulates the consumer's desire to purchase. [Simple description of the diagram] Figure 1: This is a schematic diagram of the division of the substrate into the active zone and the non-actuation zone. Figure 2 is a schematic plan view showing the formation of metal wires and metal shielding layers on the surface of a substrate. Figure 3. Schematic diagram of the creation of an insulating layer and a bridging insulating layer on a metal shielding layer and a metal wire. Figure 4 is a plan view showing a first preferred embodiment of the present invention. 7 M410284 Figure 5: Schematic diagram of Figure 4. Figure 6 is a cross-sectional view showing a second preferred embodiment of the present invention. Figure 7 is a cross-sectional view showing a third preferred embodiment of the present invention. Figure 8 is a cross-sectional view showing a fourth preferred embodiment of the present invention. FIG. 9 is a schematic view showing a combination of a conventional touch panel and a cover glass. [Major component symbol description] 10 substrate 1 01 non-actuating region 31 insulating layer 41 first axial line 41 1 metal wire 420 Y-axis electrode 50 signal line 70 silver glue layer 80 touch panel 810 shielding layer 100 actuation zone 20 metal shielding Layer 32 bridging insulation layer 410 first axial electrode 42 second axial line 421 Y-axis conductor 60 protection photoresist layer 81 protective glass 82 adhesive