JP3167028U - Decorative frame for touch panel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a decorative frame of a touch panel for beautifying and protecting a signal transmission line arranged at a peripheral edge of a touch panel. SOLUTION: In a decorative frame of a touch panel, a first color frame layer is arranged near the outer peripheral edge of the bottom surface of an upper plate 1, and a first color frame layer is arranged near the inner peripheral edge of the first color frame layer. A second color frame layer extending from the surface and straddling the bottom surface of the upper plate is arranged, and the decorative frame of the touch panel composed of the first color frame layer and the second color frame layer is a signal conducting wire 53 at the edge of the touch sensor device. , 54 can be concealed. Among them, the first color frame layer and the second color frame layer are thin film layers that are opaque or nearly opaque, and the first color frame layer is a thin film layer that is thicker than the second color frame layer. [Selection diagram] Fig. 4

Description

  The present invention relates to a touch panel decorative frame, and more particularly, to a touch panel decorative frame for beautifying and protecting a signal transmission line arranged at a peripheral edge of the touch panel by an edge frame-shaped decorative layer provided on a bottom surface layer of the touch panel.

  Currently, touch panels are widely applied to general consumer electronic products such as mobile phones, digital cameras, and car navigation systems using GPS, improving the user interface and increasing the input efficiency. Usually, a touch panel is transparent, and is arrange | positioned and used before the display of the said electronic goods. The user performs an input operation by interaction according to the instruction message on the display, and greatly improves the friendliness of the communication interface between human and machine. A typical touch panel includes a touch sensor device arranged in an insulated state between an upper plate and a substrate, and a signal processing circuit that transmits signals on the touch sensor device by signal conductors provided at peripheral edges of the laminated plate. The decorative frame disposed at the peripheral edge portion of the touch panel completely covers the signal conductive wire at the peripheral edge portion, thereby achieving the effect of protecting the signal conductive wire and beautifying the panel. In the past, all the decorative frames had a thin color frame layer formed on the outer surface of the touch panel by printing means, but in recent years, based on the trend of transition of related electronic products to all flat panels, In order to ensure flatness, the thin color frame layer has been printed on the top plate bottom surface. However, the thin color frame layer for printing usually has a thickness of at least 15 μm or more and can reach 200 μm, so when sticking between the upper plate and the substrate and sticking, it is near the edge of the thin color frame layer. Adhesive leakage and residual bubbles are likely to occur, and the optical characteristics may be greatly lost and the aesthetics may be impaired. Similarly, when printing a thin color frame layer on the bottom surface of the top plate, the top indium tin oxide (ITO) electrical resistance film placed on the top plate bottom surface is the edge for electrical connection with the signal conductor. It is necessary to straddle the color frame layer, but the thickness of the indium tin oxide (ITO) electric resistance film is only about 20 nm, and the spreadability of the thin film material is limited. Due to the height drop caused by the top plate bottom surface, when the indium tin oxide (ITO) electrical resistance film straddles the inner edge of the color frame layer, loss and cracks are likely to occur, and signal transmission failure is likely to occur. In order to prevent the above-mentioned drawbacks, the traders stopped printing means and changed to means for providing a thin film design layer as a decorative frame by using a photoresist coating method. The photoresist thin film layer thus formed is usually only about 1 μm or less in thickness. Therefore, when an indium tin oxide (ITO) electric resistance film is disposed in combination, the indium tin oxide (ITO) electric resistance film is a photoresist. The part straddling the thin film layer is not damaged or cracked. However, many drawbacks still remain when the photoresist thin film layer is used as a decorative frame. For example, since the thickness of the photoresist thin film layer is thin, the touch panel production process is very easily scratched and easily causes damage and light transmission. In addition, at present, in the industry, a method of manufacturing the photoresist design layer by a wet coating method is mainly used. In the photoresist coating technique, a liquid photoresist agent is applied to the surface of the plate body regardless of whether it is spin coating or slot coating. Is applied to the edge of the plate or groove or hole (for example, a hole for placing a microphone or a function key), and the liquid of the photoresist agent easily flows along the edge to cause contamination. It is difficult to drop it clean. As can be seen from the above description, the known touch panel decorative frame structure has some drawbacks and is expected to be improved.

  In view of the foregoing, the present invention mainly provides a decorative frame for a touch panel. The decorative frame is arranged between the touch panel stacks, is constituted by two types of thin color frame layers having different thicknesses, and the thicker printed thin film color frame layer is provided at a position where the panel outer edge or the concave hole is disposed. Therefore, the coating of the thin color frame layer is made accurate and excellent in aesthetics. In addition, the decorative frame and the indium tin oxide (ITO) conductive layer are conveniently stacked by overlapping the thinner photoresist thin film color frame layer across the inner edge of the printed thin film color frame layer and the panel surface. Because they are arranged together, they prevent damage and cracks at the places where indium tin oxide (ITO) is overlaid.

  In order to achieve the above object, a decorative frame for a touch panel according to the present invention is provided. The touch panel of the present invention includes an upper plate, a substrate, and a touch sensor device disposed in an insulated state between the two plates, and a sensor signal on the touch sensor device is a signal processing circuit via a signal conductor provided on a side. Is transmitted. The upper plate, the substrate, and the touch sensor device are all made of a substantially transparent thin layer material. Among them, the touch sensor device is made of a transparent conductive thin film having good conductive characteristics, and the material of the transparent conductive thin film is indium tin oxide, indium zinc oxide, zinc aluminum oxide, polyethylenedioxythiophene (PEDOT However, the material range to be implemented is not limited to the above materials.

  A first color frame layer is disposed near the outer peripheral edge of the upper plate bottom surface, and the second color frame extends from the first color frame layer surface near the inner peripheral edge of the first color frame layer and straddles the upper plate bottom surface. Arrange the layers. The decorative frame of the touch panel constituted by the first color frame layer and the second color frame layer hides the signal conductors at the edge of the touch sensor device.

  In particular, the first color frame layer and the second color frame layer are opaque or nearly opaque thin film layers.

  In particular, the first color frame layer is a print color frame layer having a film layer thickness of 10 μm or more.

  In particular, the second color frame layer is a photoresist color frame layer having a film layer thickness of 2 μm or less.

  The decorative frame of the touch panel according to the present invention has an effect of beautifying and protecting a signal transmission line arranged on the peripheral edge of the touch panel by an edge frame-shaped decorative layer provided on the bottom surface layer of the touch panel.

It is a top view which combined the component regarding the Example of this invention. It is a top view of the upper board bottom surface regarding the Example of this invention. It is a top view of the surface on a board | substrate regarding the Example of this invention. It is sectional drawing of CC line of FIG.

  Next, other functions and technical features of the present invention will be further clarified, and those skilled in the art will be able to realize the present invention based on the explanation after reading the explanation in the text.

  Next, each drawing in which the capacitive touch panel is an embodiment of the present invention is shown. The capacitive touch sensor device 5 is disposed between the upper plate 1 and the substrate 2 in an insulated state, and the capacitive touch sensor device 5 is generated at the moment when the user's finger or conductor moves on the touch panel. Receiving the capacitance effect, the position of the finger or conductor is determined by changing the capacitance value, and the purpose of signal input is achieved.

  Among them, the capacitive touch sensor device 5 includes an upper capacitive sensor layer 51 and a lower capacitive sensor layer 52 that are arranged in an insulated state from each other, and the upper capacitive sensor layer 51 includes a plurality of capacitive sensor layers 51. An X-axis sensor trace (X-Trace) is provided, and the lower capacitance sensor layer 52 includes a plurality of Y-axis sensor traces (Y-Trace), and one end edge of each X-axis sensor trace is an edge of the sensor layer edge. Since the signal conducting wire 53 and the signal conducting wire 54 are electrically connected, the capacitance sensor signal is transmitted to the subsequent signal processing circuit via the signal conducting wire. Usually, a transparent thin film made of indium tin oxide (ITO) is used for the capacitance sensor layer, unnecessary portions are removed by an etching method, and the capacitive sensor layer is divided into X-axis sensor traces and Y-axis sensor traces.

  Both the upper plate 1 and the substrate 2 are made of a material having a high light transmittance, a flat or non-planar thin plate, and the material is a glass thin plate or other various materials such as polycarbonate (PC), It is selected from flexible thin plates such as polyethylene terephthalate (PET), polymethyl methacrylate resin (PMMA), and cyclic olefin copolymer (COC). However, the material range to be implemented is not limited to this, and is applicable to all of the various soft or hard thin plates. As shown in FIG. 4, a printing color frame layer 31 is provided at a location near the outer peripheral edge of the bottom surface of the upper plate 1, and the printing color frame layer 31 uses a black ink of an organic material or an inorganic material, It is provided with a film thickness of 10 μm or more, and near the inner peripheral edge of the printing color frame layer 31, a photoresist color frame layer 32 extending from the surface of the printing color frame layer 31 and straddling the bottom surface of the upper plate 1 is disposed, As the photoresist color frame layer 32, a black negative photoresist, for example, polyisoprene is employed. In addition, by providing a film thickness of 2 μm or less, the decorative frame 3 of the touch panel constituted by the printing color frame layer 31 and the photoresist color frame layer 32 hides the signal conductor 53 and the signal conductor 54 at the edge of the touch sensor device. it can. The upper capacitive sensor layer 51 of the capacitive touch sensor device is disposed within a work area range on the bottom surface of the upper plate 1, and its edge portion overlaps just over the photoresist color frame layer 32, The contact 53 a of the signal conductor 53 extends over the printing color frame layer 31 and the photoresist color frame layer 32, and is further electrically connected to the edge of the upper capacitance sensor layer 51. In addition, the lower capacitive sensor layer 52 of the capacitive touch sensor device is disposed within a work area range on the upper surface of the substrate 2, and the signal conductive line 54 a of the signal conductive line 54 further has an edge of the lower capacitive sensor layer 52. Is electrically connected. An insulating layer 55 serving as a partition is disposed between the upper plate 1 and the upper capacitance sensor layer 51, and between the substrate 2 and the lower capacitance sensor layer 52, and is adhered to each other to form a single plate. The insulating layer 55 is a transparent insulating adhesive layer, and its material is selected from a UV adhesive, an optical clear adhesive (OCA), an isoprene rubber adhesive, and the like. The material range to be implemented is not limited to the above materials.

  The touch panel decoration frame 3 configured based on the above description completely hides the signal conductor 53 and the signal conductor 54 at the edge of the touch sensor device, and arranges the decoration frame 3 in the stack of touch panels. It guarantees the aesthetics and flatness of the surface. In the present invention, first, when a thin film color frame layer is arranged at a location near the outer frame portion of the substrate and an area having holes or grooves by a printing method, and coating is performed on these areas by a known photoresist coating method. Prevents the drawback of photoresist leakage. Also, the printing method makes it easy to control the position of the thin film color frame layer. For example, in printing using a net, the hole position is left in advance, printing is performed within an accurately set area, and the thin film color frame formed by printing is also used. Since the layer is a film layer having a relatively large thickness, it is less likely to be damaged or damaged in the touch panel processing step, and the yield of the product can be improved. Further, in the photoresist coating method of the present invention, a thin photoresist thin film color frame layer is disposed on the inner peripheral edge of the printed thin film color frame layer, and the conductive film of the touch sensor device is conveniently stacked. To prevent damage or cracking of the overlapping parts.

  The present invention is not limited to the above-mentioned form, and it is obvious that many improvements and changes with equal technical value can be added with reference to the above description. Therefore, any modifications and changes related to the present invention made under the same creative spirit shall fall within the protection scope intended by the present invention.

DESCRIPTION OF SYMBOLS 1 Upper board 2 Board | substrate 3 Decoration frame 31 Print color frame layer 32 Photoresist color frame layer
5 Capacitive Touch Sensor Device 51 Upper Capacitance Sensor Layer 52 Lower Capacitance Sensor Layer 53 Signal Conductor 53a Contact 54 Signal Conductor 55 Insulating Layer

Claims (4)

An upper plate having flexibility, a substrate, and a touch sensor device disposed in an insulated state between the two plates are provided, and sensor signals on the touch sensor device are signal processed via a signal conductor provided on a side. The upper plate, the substrate, and the touch sensor device are all made of a substantially transparent thin layer material.
A first color frame layer is disposed near the outer peripheral edge of the upper plate bottom surface, and the second color layer extends from the first color frame layer surface and straddles the upper plate bottom surface near the inner peripheral edge of the first color frame layer. A touch panel decorative frame comprising a color frame layer, wherein the decorative frame of the touch panel configured by the first color frame layer and the second color frame layer conceals a signal conductor at an edge of the touch sensor device.   The touch frame decoration frame according to claim 1, wherein the first color frame layer and the second color frame layer are opaque or nearly opaque thin film layers.   The touch frame decoration frame according to claim 1, wherein the first color frame layer is a print color frame layer having a film layer thickness of 10 µm or more.   The touch frame decoration frame according to claim 1, wherein the second color frame layer is a photoresist color frame layer having a film layer thickness of 2 μm or less.

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