TWM368846U - Improved structure of touch panel - Google Patents

Description

M368846 V. New description: [New technical field], this creative department is related to - Guanliang residual control panel structure, _ kind of transparent display characteristics can be configured before the display screen of the appliance (Dis (four), in order to use Touch panel players who can perform interactive wheel-in operation. - [Prior Art] 'With the rapid advancement of panel production technology, the functional quality of touch panel has been greatly improved and the price has been greatly reduced, so touch Panels are increasingly being used in a wide range of consumer electronics such as mobile phones, digital cameras, digital music players (MP3), personal digital assistants (PDAs), satellite navigators (Gps) and other digital appliances. In these electronic products, the touch panel is disposed on the display screen of the electric appliance to enable the user to perform an interactive round-in operation, thereby greatly improving the goodwill of the communication interface between the person and the machine, and improving the efficiency of the input operation. As shown in the 13th to 15th riding, the current general touch panel is installed and used, most of which are mounted on the transparent flat touch sensor board 5〇〇-face loss_ Then, the touch sensor board 501 is insulated from being sandwiched between an upper substrate 5〇2 and a lower substrate 5〇3; and the face board is 600 is a transparent plate layer, and a decorative border 601 is formed on the periphery of one surface thereof to shield the signal wire portion 501a disposed at the edge of the touch sensor for aesthetic purposes. The components of the panel are all made of transparent material, so it is suitable for use as a signal input device in front of the display screen of the electronic product, so that the user can touch or press the special position on the panel through the indication on the screen screen. For the signal input, as mentioned above, the components such as the conventional veneer 600 and the touch sensor board 500 are firstly produced separately, and then stacked with a transparent glue layer 7 (optical glue). Synthetic integration, this combination structure not only has a complicated assembly procedure, but also the optical glue is expensive, and it is easy to produce defective products when it is attached, resulting in material waste and double the cost of production and production. The thickness of the panel after the combination of the veneer 7 〇〇 该 板 板 板 板 板 倍 倍 倍 倍 倍 倍 倍 倍 倍 倍 倍 倍 倍 倍 倍 倍 倍 倍 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度 厚度In view of this, the main purpose of the present invention is to provide an improved touch panel structure, which is provided with a color border and a touch sensor directly on the substrate of the touch panel, thereby eliminating the transparent layer of the face panel. And the setting of the glue layer to save material cost, at the same time reduce the bonding process, reduce the defect rate, and improve the optical characteristics' and the need to achieve thin and light characteristics. _ In order to achieve the above creative purpose, the improvement provided by the creation The touch panel structure includes a substrate, a color frame is formed on a peripheral portion of a surface of the substrate, and at least one insulating touch sensor is disposed on the substrate, so that the signal wire portion of the edge of the touch sensor is Correspondingly disposed under the foregoing color frame; wherein the substrate has a substantially transparent material and is a flat or non-planar sheet, the material thereof Is selected from glass sheets or other flexible sheets, such as polycarbonate (PC), polyester (PET), polymethyl methacrylate (PMMA) or cyclic olefin copolymer (COC), etc. However, the range of materials to be implemented is not limited to the above materials, and various types of soft or 4 M368846 rigid, transparent or translucent substrates are suitable. The color frame may be composed of ink, color photoresist, organic material or inorganic material, but the range of materials that can be implemented is not limited thereto; and the foregoing materials are by means of printing, coating, metal steaming and the like. It is disposed on a peripheral portion of a surface of the substrate, but the implementation range is not limited to the above-mentioned technical means. Preferably, the color frame is a thickness of 5 (10) and the opaque film is not turned over. The touch sensor is selected from the group consisting of a capacitive touch sensor and an electric group. The touch (four) should be H or the electromagnetic touch wire - or a combination of two or more. Φ may also be provided with a transparent barrier layer on the outer surface of the front surface of the front control sensor. The barrier layer may be a transparent protective layer or an electrically insulating layer, which is used for nitrogen cutting, sulphur dioxide, and photoresist. However, the scope of materials implemented is not limited to the aforementioned materials. Further, a transparent ground layer may be disposed outside the main surface of the barrier layer, and the ground layer material may be selected from materials such as indium tin oxide, oxidized or zinc oxide, but the material range of the implementation is not based on the foregoing materials. . In addition, a light-adjusting layer may be disposed on the main surface of the substrate, and the detail layer is composed of a polarizing film, a retardation film, or an optical isotropic thin film or the like, or a combination of two or more film layers. Made. A functional film may also be disposed on the outermost side of the main surface of the substrate. The functional film may be one of an atomized film or a hard coated film, but the scope of implementation is not limited to the aforementioned functional film. The touch panel according to the foregoing features is directly mounted in front of a display screen, and the user can touch or press a specific position on the panel to input signals through the indication on the display screen surface. The user's finger or conductor touches the transparent substrate, so that the moment of the touch sensor will generate an inductive signal and output the signal through the edge of the signal wire 5, and then can be used by 5 M368846 Detecting changes in the sensed extinction determines the finger or conductor placement, thereby achieving the purpose of signal input. Accordingly, compared with the conventional touch panel structure, the present invention can omit the transparent plate layer, the glue layer and the base substrate under the panel disposed on the top panel of the panel, thereby saving production cost and simplifying. The bonding procedure between the traditional panels and the improvement of the product yield 'enhance the optical characteristics of the product, and at the same time contribute to the thin design of the product. * This will further clarify the other functions and technical features of this creation, which will be implemented by those skilled in the art after reading the instructions in the text. [Embodiment] As shown in FIG. 1 , the first preferred embodiment of the present invention is described. In the following embodiments, a capacitive touch panel will be described as a case, but the scope of implementation of the present invention is not limited to the use of a capacitive type. The touch panel, for example, a resistive touch panel or an electromagnetic touch panel can also be used. In the first embodiment, the touch panel structure comprises a transparent substrate 1 , a color edge 20 and a touch sensor 30 . The transparent substrate 1 实质 has a substantially transparent material, and the material thereof is It is selected from glass sheets or other flexible sheets, such as polycarbonate (PC), polystyrene (PET), polymethyl methacrylate (pmma) or cyclic olefin copolymer (Coc). .. etc. 'But the scope of the material to be implemented is not limited to the above-mentioned materials, and all kinds of soft or young, flip-flop substrates are applicable. The color border 2G may be composed of ink, color resist, organic material or inorganic material, but the range of materials that can be implemented is not limited thereto, and the materials are set by techniques such as printing coating and metal steaming. The surface of the bottom surface of the transparent substrate 10 is 6 M368846, but the implementation range is not limited to the above-mentioned technical means. The color frame 2 is formed into an opaque film having a thickness of about 1/zm. The touch sensor 30 is directly disposed under the surface of the transparent substrate 1 and the color frame 20, and the signal wire portion of the edge is disposed correspondingly below the color frame, thereby utilizing the color frame 20 To shield the signal wire portion of the edge of the touch sensor, to achieve the purpose of beautifying the appearance of the panel. In addition, in the embodiment, the touch sensor 30 is a single-layer capacitive touch sensing device. As shown in FIGS. 2 and 3, the single-layer capacitive touch sensor 30 includes a capacitive sensing layer 2, a resistive layer 13 and a jumper conductive layer Η, wherein the capacitive sensing layer 12 is a transparent conductive film made of indium tin oxide, which has a plurality of X-axis equidistant arrangements and is arranged parallel to each other a transparent X-axis trace 121, and a plurality of transparent Y-axis traces 122 that are axially equidistantly arranged and arranged in parallel with each other, and have the X-axis traces 121 and the gamma-axis traces 122 arranged in a matrix, and the foregoing individual The respective sensing units 121a on the X-axis trace 121 are in communication with each other, and the respective sensing single-lures 122a on the individual γ-axis traces 122 are spaced apart from each other at intervals, and each of the aforementioned X-axis traces One end edge of the 121 and Y-axis traces 122 is electrically connected to the metal guides 15a, 15b' disposed at the edge of the transparent substrate 1 and connected to a signal output terminal (not shown), thereby making the sensing The sensing signals of the X-axis trace 121 and the Y-axis trace 22 on the layer 12 can be The signal output terminal is transmitted to a subsequent signal processing circuit; the barrier layer 13 has a plurality of insulating masks using a polyester film material having a high light transmittance and a dielectric constant of about 3 and a thickness of about 1.5//m. The covered area of the insulating mask is at least sufficient to cover the χ ' M368846 axis trace portion 121b between the two adjacent array sensing units 122a on the γ-axis trace; the jumper conductive layer 14 is provided with a complex number The electric wires disposed along the γ-axis direction are opaque metal conductors having a wire diameter of less than 15 μm, and the electrical connection portions 141 ′ having a larger contact area than the electric wire body at the two end edges of the electric wires The electric wire is disposed on the upper surface of the insulating mask of the barrier layer 13 , and the electrical connection portion 141 of the two ends of the electric wire is extended outside the insulating mask; the capacitive sensing layer 12 and the barrier layer 13 And when the conductive layer 14 is combined, the insulating masks of the resist layers 13 are disposed correspondingly between the two adjacent array sensing elements 122a on the Υ axis trace, and will pass through the two adjacent The X-axis trace portion 121b between the alignment sensing units is given The edge is covered, and the electrical junctions 141 of the two ends of the electrical conductors of the jumper conductive layer 14 are respectively electrically connected to the two adjacent sensing units ma on the γ-axis trace so as to be on the individual Y-axis traces 122. Each of the sensing units is electrically connected to each other; in addition, a dummy pattern 129 is further filled in the setting gap of the X-axis sensing unit 12ι#γ-axis sensing unit 122& on the capacitive sensing layer 12, and the imitation texture is made The 129 series are respectively not connected to the wire-to-space (four) of the X-axis sensing unit 121a&Y thief unit 122a, and the interval 12 is usually about 20"m~50" m, and ideally, the imitation The texture 129 is a transparent conductive film having the same material as the X-axis sensing unit and the γ-axis sensing unit, and the foot is oxidized (four), thereby making the electricity

The capacitive sensing layer 42 is an indium tin oxide material-transparent conductive film, and it contains a plurality of sensing units 42a having a slightly triangular area, and the conductive film is also provided, and the sensing unit 42a is made to work.偁 具 具 具 具 具 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容 电容And connected to the signal output terminal (not shown), whereby the sensing signal of each sensing unit 42a can be transmitted to a subsequent signal processing circuit via the signal output terminal; further, in the setting gap of the sensing unit 42a The imitation decorative line 49 is also filled, and the imitation decorative line 49 is respectively spaced apart from the edge of the two adjacent sensing units 42a by a gap 49a, which is normally connected to the interval 49a, which is usually about 20 "m~50 in m And ideally, the imitation texture 49 has the same material as the sensing units 42a. The touch panel composed of the components is directly adhered to the front panel by using a glue layer 91, so that the viewer can touch the indicator on the screen 92 to touch or press the panel. The specific position is used for signal input; and the input operation is performed by the user's finger or conductor touching the transparent substrate 10. The capacitive touch sensor 30 will generate an induced capacitive signal, and then The position of the finger or conductor can be determined by detecting the change in the value of the sensing signal, thereby achieving the purpose of signal input. Comparing the foregoing embodiments of the present invention with the conventional touch panel structure, it can be found that the transparent plate layer, the glue layer and the conventional touch surface of the face panel disposed above the conventional touch panel have been omitted. The bottom substrate and other components under the panel can save the material cost of the large towel field, and the embossed frame of the original lion is a transparent substrate of the lion's transparent substrate. The surface of the substrate and the faceplate of the conventional touch panel can be omitted. The adhesive process not only reduces the processing cost and improves the yield of the product, but also has the advantages of improving the optical characteristics of the product and facilitating the thinning design of the product. However, we can still follow the basic structure of the first embodiment described above, and

Touch = Inductive H 30 interference. The fifth embodiment shown in FIG. 8 is a bottom surface of the laminate of the transparent substrate ι and the color frame 2 和 and the touch sensor 3 according to the configuration of the foregoing fourth embodiment. Between the transparent electrode layer, there is a flatness of the H 70 in the superimposed adhesive, and the problem of avoiding the occurrence of the blistering at the edge of the color frame, and the protective layer material may be selected from the fossils of the fossil. Dioxo-cut, photoresist-like, etc., but the material range of the implementation is not adjusted by the above-mentioned material M368846 touch panel under different conditions of use, such as: in the second embodiment shown in Figure 5, The outer surface (ie, the bottom surface) of the main surface of the touch sensor 3 is provided with a transparent insulating layer 40, and the insulating layer material may be selected from the group consisting of materials such as nitriding stone, sulphur dioxide, green, etc., but the material is implemented. The range is not limited to the foregoing materials, and the transparent insulating layer 40 is used to protect the bottom surface of the touch sensor 3 from scratch damage. In the third embodiment of the sixth ride display, the touch Between the transparent electrode layer 30a of the inductor 3〇 and the metal guide 30b a transparent insulating layer 4〇, and a transparent protective layer 5〇 disposed on the bottom surface of the metal guiding path 30b, wherein the transparent electrode layer tearing and the metal guiding path 3Gb are insulated from the touch panel, wherein The material of the transparent electrode layer 30a may be selected from materials such as indium tin oxide, oxidized surface zinc or oxidized epoch, and the insulating layer 40 and the material of the smear (four) However, the material to be implemented is not limited to the foregoing materials. In addition, the fourth embodiment shown in FIG. 7 is further disposed on the lowermost tilting surface of the third embodiment according to the configuration of the foregoing third embodiment. Eggs (4) (10), made of grounding layer 6〇 as a turning material, such as: oxidation surface (four)) or oxidized steel zinc and other materials 'By the grounding layer 6 〇 to maintain the ground potential can block electromagnetic wave noise to this. In the sixth embodiment shown in FIG. 9, a light-adjusting layer 8 is disposed on the upper surface of the transparent substrate 10 according to the configuration of the fifth embodiment, and the light is tuned by the light. Layer 80 allows the visibility of the display content on the display to be improved while the light The adjustment layer 80 is formed by combining one of optical films such as a polarizing film, a retardation film, or an optical thin film, or a film laminate of two or more types. Further, in the seventh embodiment shown in the first drawing, According to the configuration of the foregoing sixth embodiment, a functional film 90 is coated on the outermost surface of the transparent substrate 1 or the panel of the light-adjusting layer 80, and the functional thin film is selected from an atomizing film or a hard coating. One of the layers, but the scope of implementation is not limited to the aforementioned functional film, by providing the functional film 90 to reduce the reflectivity of the panel surface, or to improve the hardness and scratch resistance of the panel surface. According to the eighth embodiment, the transparent electrode layer 3〇a is changed to a two-layer electrode structure according to the configuration of the seventh embodiment, that is, the transparent electrode layer 30a2 is covered by the upper transparent electrode layer 3a. And a transparent insulating layer 30a3 disposed between the upper and lower transparent electrode layers, wherein the upper and lower transparent electrode layers are fine, and the material of the transparent layer can be self-propagating _, oxidized zinc or Oxidation_etc. (4), and the insulating layer 30a3 material can be selected Nitrogen fossil Xi, Xi stone dioxide, and other substances based resist, but the material is not in the scope of the embodiments of the material is limited. This creation is not the same as the above-mentioned form. After the above description, it is possible to have more technical improvements and changes. (4): According to the structure of any of the foregoing embodiments, the transparent substrate 10 can be used. In addition to the configuration of the flat panel, it is also possible to use a plate with a curved surface or various other non-planar plates due to the different requirements of the installation and use of the panel (such as the figure * M368846 shows), and these settings have the same or similar performance as the previous embodiments, so they should be essentially the same as the technology before the creation; that is, all the creations in the same creative spirit Any modification or change shall be included in the protection of this creative intent. BRIEF DESCRIPTION OF THE DRAWINGS - Fig. 1 is a cross-sectional view showing the component combination structure of the first embodiment of the present invention; 'Fig. 2 is a plan view of the single-layer capacitive touch sensor of the first embodiment of the present invention. FIG. 3 is an enlarged schematic view of a portion A of FIG. 2; FIG. 4 is a plan view of another single-layer capacitive touch sensor according to the first embodiment of the present invention; FIG. 6 is a cross-sectional view showing the component combination structure of the third embodiment of the present invention; FIG. 7 is a cross-sectional view showing the component combination structure of the fourth embodiment of the present invention; 8 is a cross-sectional view showing the component combination structure of the fifth embodiment of the present invention; FIG. 9 is a cross-sectional view showing the component combination structure of the sixth embodiment; FIG. 10 is a component of the seventh embodiment of the present invention. FIG. 11 is a cross-sectional view showing the component combination structure of the eighth embodiment of the present invention; FIG. 12 is a cross-sectional view showing the component combination structure of the ninth embodiment of the present invention; A schematic diagram of components of the touch panel; FIG. 14 is a conventional touch panel Plan view of a composite structure member; and a second graph 15 shows a conventional cross-sectional view of an element structure of a combination of a touch panel. 12, M368846

[Description of main component symbols] Transparent substrate 10 Touch sensor 30 Upper transparent electrode layer 30al Insulation layer 30a3 Insulation layer 40 Ground layer 60 Light adjustment layer 80 Capacitive sensing layer 12 Jumper conductive layer 14 Y-axis trace 122 Metal guide 15a, 15b Electrical connection 141 Interval 129a Induction unit 42a Imitation texture 49 Glue layer 91 Touch sensor board 500 Signal wire portion 501a Lower substrate 503 Decorative frame 601 Color frame 20 Electrode layer 30a Lower transparent electrode layer 30a2 Metal guide 30b Protective layer 50 Protective layer 70 functional film 90 barrier layer 13 X-axis trace 121 sensing unit 121a, 122a X-axis trace portion 121b imitation texture 129 capacitive sensing layer 42 metal guide 42b interval 49a display screen 92 touch sensor 501 upper substrate 502 surface Plaque 600 glue layer 700 13

Claims (1)

M368846 VI. Patent application scope: 1. An improved touch panel structure, comprising: a substrate 'is a substantially transparent thin plate; a color frame ′ is formed on the periphery of a main surface of the substrate to be opaque or close to An opaque film; and at least a touch sensor disposed on a main surface of the substrate, and the signal wire portion of the edge is disposed correspondingly below the color frame, and the touch sensor can be touched by the touch sensor The sensor generates a sensing signal and outputs the sensing signal via a signal wire that is placed at the edge. 2. The improved touch panel construction of claim 1, wherein the substrate is selected from the group consisting of glass, polycarbonate (Pc), polyester (polyester), and polymethyl methacrylate (ΡΜΜΑ) or a cyclic olefin conjugate (a material produced by the material of the COQ#. 3. The improved touch panel construction of claim 1, wherein the substrate is - planar or A non-planar sheet. The color border is selected from the group consisting of inks, etc. 4. The improved touch panel construction of the first aspect of the patent, wherein the color resist, organic material or Inorganic material Or more than one compound. M368846 7 The improved touch panel structure according to claim 1, wherein the thin-polarized film of the surface-filament-finished layer, the phase difference thin thief light material-based optical or the second More than one type of film laminate is combined. 8. The improved touch panel structure of claim 1, further comprising the outermost surface of the main surface of the substrate - the functional fine is selected from one of an atomizing film or a hard coating film. . 9. The improved touch panel structure of claim 1, further comprising a transparent barrier layer disposed outside the main surface of the touch sensor. 10. The improved touch panel construction of claim 9, wherein the barrier layer can be an electrically insulating layer. 11. The improved touch panel structure of claim 9, wherein a transparent ground layer capable of blocking noise is disposed outside the main surface of the barrier layer.