KR200479326Y1 - Touch-sensitive panel device and electrode structure with color harmonization - Google Patents

Abstract

An electrode structure having a kind of touch panel device and a color harmonization layer is made of a metal conductive material. In order to effectively suppress the reflected light of the metal and harmonize with the background color of the inside of the panel, The electrode structure shown in the embodiment can be applied to a reflective display panel by forming a color harmonizing layer in the metal conductive layer therebetween and bonding the formed electrode material to the substrate. The color harmonizing layer can shield the metal conductive layer to avoid reflected light of the metal and achieve the object of visually harmonizing with the color of the panel backing material.

Description

TECHNICAL FIELD [0001] The present invention relates to an electrode structure having a touch panel device and a color harmonization layer,

The present invention relates to a touch panel device and an electrode structure having the color harmonization layer, and more particularly to an electrode structure having a function of preventing reflected light by using a color harmonization layer, and a touch panel device having such an electrode structure.

Reflective LCD (Reflective LCD), which has characteristics such as energy conservation and carbon abatement notions are gradually increasing due to the consciousness of environmental protection, and therefore can be used in ambient light, does not need a light source, and has low power consumption Evolution has already become a generally negligible trend, and compared to conventional flat displays, future reflective displays inevitably have significant growth potential.

Reflective displays have low power consumption and do not require the use of a source of light and are well suited for use in portable electronic products and are suitable for use in reflective electronic devices such as electronic books, electronic paper, curved wrist watches or electronic tags (Indium tin oxide) touch panel, which is disadvantageous in that it is not expensive and has a high cost when it is applied to a display device of the type.

When metal wires are used as electrodes on a touch panel, the problem is that the metal electrode may have a slight metallic color when reflecting external light, and furthermore, due to the color of the electrode itself and the color of the screen, There may be interference of reflected light, so that metallic reflected light that can be observed with the naked eye appears on the screen, which tends to cause visual fatigue when viewing for a long time.

In the case of a panel using a metal electrode lead wire (metal grid), one layer of an anti-glare film is additionally required to remove metal reflection light caused by a metal lead wire in the panel. There is a problem that causes it.

When the conventional antireflection film is used, not only the thickness of the touch panel can be increased but also the light transmittance of the light transmitting region can be influenced. At the same time, the plastic substrate of the optical level can also form the reflected light, and the reflected light makes the eye easily tired. If the reflection light of the metal line is combined with the reflected light, the interference of the reflected light becomes more serious, It is easy to observe.

FIG. 1 is a cross-sectional view of a substrate and an electrode structure of a conventional touch display device.

When a touch display panel is provided with the substrate 10 and the electrode structures 101 and 102 on the upper and lower surfaces thereof, an optically clear adhesive 11 is formed on the upper side And an antireflection film 12 for removing the reflected light of the metal material in the panel is adhered to the optical transparent adhesive 11 and then the optical transparent adhesive 13 is attached to the substrate 14 on the upper side . The substrate 10 under such a structure can be mounted on the display module 16 through the transparent adhesive 15 for optical purposes. The display module 16 may be a display module filled with an electronic ink (E-ink) material in addition to the liquid crystal layer.

When the reflection phenomenon of the metal is reduced by using an anti-glare structure in the prior art, the reflection problem can not be effectively solved, and the thickness of the panel can be rather increased. In addition, The corrosion resistance may be deteriorated.

The present invention relates to a touch panel device and an electrode structure having a color harmonization layer in consideration of the problem that the design using the metal electrode lead wire as the electrode structure on the touch panel generates metal reflection light and metal visibility in the prior art. . Among them, the addition of the color harmonization layer to the electrode structure design can effectively remove the reflected light generated by the metal or the substrate, and can harmonize the colors according to the background color of the panel device, And does not generate unnecessary reflected light and visual interference.

According to the embodiment 1 described in the specification, the main structure of the electrode structure having the color harmonization layer includes a conductive layer made of a metal conductive material, and a color harmonization layer, The components of the color harmonizing layer are adjusted according to the re-color to harmonize the colors of the panel structure background material, and the reflected light generated from the conductive layer is removed.

In Example 1, the material of the color harmonization layer is a phenol resin having a weight percentage of 25% to 50%, a photosensitive compound having a weight percentage of 1% to 5%, an organic colored polymer dye having a weight percentage of 1% to 20% A mixture of a solvent having a weight percentage of 40% to 70%, forming a mixture A, and then mixing the mixture A having a weight percentage of 60 to 99% with an inorganic colored dye having a weight percentage of 1% to 40% .

In another embodiment, the formation of the color harmonization layer is performed by applying a silver-white metal directly to the conductive layer and then machining to have a rough surface, wherein the silver-white metal is silver, nickel, chromium, titanium, aluminum, molybdenum, tungsten and copper And the like, or combinations thereof.

The present invention further discloses a touch panel device provided with an electrode structure having a color harmonization layer, wherein the panel device is provided with a reflection type panel and a substrate, which are bonded through an optical transparent adhesive, Or a plurality of electrode structures are formed. The electrode structure includes a conductive layer and a color matching layer which are made of a metal conductive material.

By using the electrode structure having the color harmonization layer provided by the present invention, not only the thickness of the touch panel can be effectively reduced but also the display quality is not affected, the high light transmittance and metal conductivity can be obtained, To prevent corrosion in a high temperature bath environment.

For a more in-depth understanding of the techniques, methods, and effects employed by the design to achieve a given purpose, reference should be made to the following detailed description and drawings of the design, and the purposes, features and characteristics of the design I believe I can understand it in detail. It is to be understood, however, that the appended drawings and description are for reference purposes only and are not intended to limit the present invention.

1 is a cross-sectional structural view of a conventional touch display device.
2 is a structural view of a display panel using an electrode structure having a color harmonization layer according to the present invention.
3A to 3E are electrode structure diagrams with a color harmonization layer of the present invention.
FIGS. 4A to 4E show examples of manufacturing processes for forming the electrode structure having the color harmonization layer of the present invention.
FIG. 5 is a view showing an embodiment of a display panel structure using an electrode structure having a color harmonizing layer according to the present invention.
Fig. 6 is another embodiment of the electrode structure having the color harmonization layer of the present invention.
FIG. 7A is an embodiment of the electrode structure of the present invention as well.
Fig. 7B is a second embodiment of the electrode structure of the present invention.
Fig. 8 is a view showing a panel structure of an electrode structure having a color harmonization layer according to the present invention.

The present invention proposes an electrode structure having a touch panel device and a color harmonization layer, and the touch panel device is particularly applied to a reflective display panel. In the case of such a panel, for example, an electronic paper with an emphasis on high contrast, a display panel using reflected light as a light source can be used. Of such a reflective display panel, the color of the background material is usually a light color series, and the metal lead can be used as a touch circuit in the touch panel.

Therefore, in one embodiment, the electrode structure in the touch panel is made of a metal wire material, and in order to effectively suppress the reflected light of the metal and harmonize with the background color in the panel, The color harmonization layer is formed on the conductive layer. The main purpose of the color harmonization layer is to shield the metal conductive layer to prevent reflected light from the metal, and to harmonize with the color of the background material to avoid visual interference. The color harmonizing layer proposed in the embodiment can further ensure the light transmittance of the whole panel and the metal conductivity of the electrode structure.

In the touch panel device provided in the present invention, a metal conductive layer is formed using a metal conductive material, which forms the electrode structure main body of the panel. The touch panel may be a reflective display panel including a flexible reflective display panel, and the reflective display panel mainly relies on a light source in the surrounding environment to achieve a display effect, so that the metal generated by the metal conductive layer Consideration should be given to the removal of reflected light, thus suggesting a color harmonization layer formed on the metal conductive layer.

According to Embodiment 1, the color harmonization layer on the electrode structure of the display panel is, for example, a whitish layer of a light color system. The whitish layer can not only remove metallic reflection light, (Metal visibility) in the case of using the electrode technology, and it is possible to prevent the metal electrode from being affected by the high temperature and high humidity environment, The visual quality of the reflective display in which the ash is white can be enhanced.

One of the methods of forming the color harmonization layer may be formed by applying a material directly to the metal electrode structure, or by using sputtering or vacuum evaporation.

According to a preferred embodiment, the coatings employed in the present invention comprise a phenolic resin having a weight percentage of 25% to 50%, a photosensitive compound having a weight percentage of 1% to 5%, an organic colored polymer dye having a weight percentage of 1% to 20% And a solvent having a weight percentage of 40% to 70%, wherein the solvent may be propylene glycol methyl ether acetate. The mixture after mixing the above-mentioned four components is again mixed with an inorganic colored dye. The weight percentage of the mixture is 60 to 99%, and a white colored material such as SiO ₂ or TiO ₂ or a white micron grade powder such as calcium carbonate, The weight percentages of the dyes are mixed in the range of 1% to 40% to form the color matching layer coating of the present invention.

According to a preferred embodiment, the color coordination layer coating of the present invention comprises a phenolic resin having a weight percentage of 5% to 45%, a photosensitive compound having a weight percentage of 1% to 15%, an organic coloring matter having a weight percentage of 1% to 20% Polymeric dyes, and solvents having a weight percent ratio of 45% to 90%, wherein the solvent may be one of the group consisting of propoxy ethyl acetate, propylene glycol methyl ether acetate, propylene glycol methyl ether, and mixtures thereof. The mixture after mixing the above-mentioned four kinds of (phenolic resin, photosensitive compound, organic colored polymer dye and solvent) is again combined with an inorganic colored dye, the weight percentage of the mixture is 60 to 99%, and SiO ₂ or TiO ₂ The weight percentage of the inorganic colored dyes such as white micron powder such as calcium carbonate is 1% to 40% to form the color matching layer coating of the present invention.

In addition, when the color matching layer of the present invention is intended for whitening, a silver white metal may be directly applied to the metal electrode structure and then processed to have a rough surface. The silver white metal is an alloy of elements such as silver, nickel, chromium, titanium, aluminum, molybdenum, tungsten and copper, or an alloy thereof, for example, a copper nickel alloy.

Among the electrode structures, since the color harmonization layer formed on the metal conductive layer is formed only on the surface of the metal conductive layer in structure, the metal electrode can be completely covered with a fixed thickness, Or may be formed on the metal electrode as a particle surface.

Referring to FIG. 2, there is shown a structure of a display panel using an electrode structure having a color harmonization layer according to the present invention.

The figure shows a display panel structure in which a reflective panel 203 is provided at the lower part and a substrate 2 is provided at an intermediate part. The space between them is coupled via an optical transparent adhesive 24, Electrode structures 21a and 21b are provided on both sides of the electrode structures 21a and 21b, respectively. According to a preferred embodiment 1, the substrate 2 is made of a light-transmitting material and forms a touch panel together with the electrode structures 21a and 21b.

The touch panel forms a reflective display panel. The cover plate 201 above the panel is coupled to the upper part through the transparent adhesive for optical 23, and the reflective panel is bonded to the lower part through the transparent adhesive for optical 24 And such combination forms the display panel structure posted by the present invention.

Among them, the optical transparent adhesives 23 and 24 have optical transmittance (%) of T> 90%, L> 90, a <0.1 and b <0.8 in optical requirements. The material may be, but is not limited to, acrylic, acrylic resin, and the like.

When the electrode structure 21a is irradiated with an external light source (see, for example, an optical path indicated by an ambient light and a dotted line) through the cover plate 201 and the optical transparent adhesive 23 from above, The first reflected light 205 is generated due to the characteristic of the metal electrode itself. The external light source also penetrates the cover plate 201, the optical transparent adhesive 23, the substrate 2 and the lower optical transparent adhesive 24 from the top along the dotted line in the figure to reach the reflective panel 203 The first reflected light 205 and the second reflected light 206 can be observed with the naked eye at the same time.

In this example, the first reflected light 205 is a kind of metal reflected light reflected from the electrode structure 21a, and the hue of the reflected light is different from the hue of the reflective panel 203 (e.g., ) Has a contrast color difference, and the wiring of the metal electrode can be more easily observed with the naked eye.

If the user wants to avoid the metallic reflected light that can be observed when the user views the display panel using the metal lead wire electrode, Reflection phenomenon can be prevented, and it is possible to achieve harmony with the reflected light of the panel background material.

3A, the main structure of the electrode is formed on the surface of the substrate 31, the conductive layer 32 on which the metal lead is formed, and the conductive layer 32 And a color harmonization layer 33 formed by vacuum deposition by a coating or sputtering method.

In the embodiment shown in FIG. 3B, another color harmonization layer 34 may be completely covered with the conductive layer 32 with a fixed thickness to provide a perfect metallic reflected light drop and anti-corrosive effect.

In the embodiment shown in FIG. 3C, the hatching layer 35 of the above example is formed in the conductive layer 32 in the shape of a droplet in cross section, which can reduce metal reflection light at a larger viewing angle, and also provides an anti-corrosive effect. The above example also shows an embodiment in which the color harmonization layer 35 completely covers the conductive layer 32.

3D, the color harmonization layer 36 may be formed in the conductive layer 32 in a particle surface manner to further reduce the metal reflection light, Effect.

3E, the color harmonization layer 37 is formed on the conductive layer 32 having its own particle surface, and by completely covering the conductive layer 32, the metal reflection light on the conductive layer 32 side can be reduced have.

The substrate 31 shown in each of the above embodiments serves as an electrode structure of the panel structure. The material of the substrate material is polyethylene terephthalate (PEN), polyethylene naphthalate (PEN), cyclic olefin copolymer (COC) ), Liquid crystal polymer (LCP), polyimide (PI), polyetherimide (PEI) or polyphenyl sulfone (PPSU), and combinations thereof. The material of the metal conductive layer 32 on the substrate 31 can be copper, aluminum, nickel, iron, gold, silver, stainless steel, tungsten, chromium or titanium or an alloy of many of the same. The color harmonization layers 33, 34, 35, 36 and 37 may be a whitening layer formed of a relatively light color material, and the material may be formed of a paint or a silver white metal by directly coating the surface of the metal electrode structure, When silver white metal is used, it is further processed to have a rough surface. The optical requirements of the color harmonization layer are L <90, a ± 2, b ± 2, and the reflectance is less than 30.

4 shows a flow chart of an embodiment in which a color harmonization layer is formed on a panel structure.

4A, first, the substrate 41 is first prepared, then the conductive layer 42 is formed on the substrate 41 as shown in FIG. 4B, and then, as shown in FIG. 4C, A whitening layer formed of a light-colored material, for example, is formed on the conductive layer 42 as shown in FIG. The method of forming the initial state of the color matching layer 43 is to apply the material above the conductive layer 42 by screen printing, knife, wire bar or rotating method.

Depending on the needs of the electrode structure, the following step is the step of patterning the color matching layer 43, and etching is performed along the conductive layer 42 to be exposed. For example, as shown in Fig. 4D, an associated coating material is formed by patterning along the running direction of the metal conductive electrode. The patterning method can be, for example, a mask exposure development etching method or a laser beam engraving method. In addition, a method in which the surface of the metal conductor is subjected to hydrophilization treatment to selectively adhere the aqueous system paint to the surface of the metal conductor instead of the surface of the hydrophobic PET However, it is not limited to this. In this simple step, the color harmonization layer 43 'coated only on the metal conductor can be formed.

As shown in FIG. 4E, the portion other than the electrode layer is etched to form the conductive layer 42 'patterned on the substrate 41 and the color matching layer 43' corresponding to the surface, as shown in FIG. 4E.

FIG. 5 is an embodiment showing a structure of a display panel using an electrode structure having a color harmonization layer according to the present invention.

In the reflection type panel structure shown in the figure, a reflection type panel 51 such as a liquid crystal panel is provided at the bottom portion and is coupled with a touch panel above the structure via a transparent adhesive 53 for optical, And electrode structures 57, 58 formed on the substrate 55. The electrode structures 57,

At least one electrode structure 57, 58 is provided on the substrate 55 of this example and the design of the electrode structure may be the same as the embodiment shown in FIGS. 3A to 3E.

In this example, a color matching layer 572 is formed on the conductive layer 571 of the electrode structure 57 and a color matching layer 582 is formed on the conductive layer 581 of the electrode structure 58. The color matching layers 572 and 582 may be of different types and may also be designed to match colors of the color matching layers 572 and 582 to match the background color of the reflective panel 51. [ For example, when the background color of the electronic paper is white, the color of the color matching layers 572 and 582 may be adjusted to be close to or coincident with the color of the background material so as to generate reflected light having the same color when an external light source is incident can do. For example, the first reflected light 505 generated through reflection through the metal electrode 58, The second reflection light 506 generated through the reflection of the first reflection light 506 causes the hue of the color harmonization layers 572 and 582 to be close to the colors of the two reflected lights so that there is no color difference when the display screen is viewed by the human eye, It is possible to reduce visual inconvenience that the electrode structure of the lead wire occurs.

The thickness of the conductive layers 571 and 581 is preferably 0.001 to 15 占 퐉 and the thickness of the color matching layers 572 and 582 is preferably 0.005 to 15 占 퐉. . It is preferable that the widths of the conductive layers 571 and 581 and the color harmonization layers 572 and 582 (for example, the metal wire line width) are in the range of 1 mu m to 30 mu m.

6 shows another embodiment of the electrode structure having the color harmonization layer of the present invention.

The drawing shows an example in which the color harmonizing layer on the metal conductive layer is one or more layers. For example, as shown in the figure, the conductive layer 63 is formed on the substrate 61, The anti-corrosive ability and the environmental adaptability of the electrode structure can be improved by forming the second color harmonization layer 66 in the first color harmonization layer 65 after the roughened layer 65 is formed, The color harmonization layer 66 can help the first color harmonization layer 65 to adjust the color chromaticity and light reflection ability of all the electrodes.

In addition to the material for realizing the first hologram layer 65, the second hologram layer 66 material of the above example may be a light color oxide, a light color polymer, a silver white metal, and a mixture thereof. The silver white metal is an alloy of silver, nickel, chromium, titanium, aluminum, molybdenum, tungsten and copper, and a combination thereof (for example, a copper nickel alloy or a white copper alloy) and the light color oxides are silicon oxide, titanium oxide, Aluminum and a mixture thereof, and the light color polymer is an organic silicon or the like. Among them, in the mixture of the second hologram layer 66, the ratio of the light color polymer may be 10-90%, and the proportion of the silver white metal in the light color oxide may be 10-90%. The thickness of the second hologram layer 66 is preferably in the range of 0.001 탆 to 1 탆 and the reflectance of the second hologram layer 66 should be in the range of 1% to 50%, preferably less than 30% . In addition, the total reflectance of the first hologram layer 65 and the second hologram layer 66 is preferably 30% or less.

The characteristics of the color harmonization layer can be expressed by a chromaticity coordinate value composed of L (luminance), a (red), and b (hue). For example, when a screen of electronic paper does not have a backlight and a pure white background appears, its reflectivity is less than 30%, lightness is less than 90, and the red axis (a / -a axis) Should be interposed between 2 and -2, and the b / -b axis should be interposed between 2 and -2. In particular, in the case of a white electronic paper, the chromaticity coordinate layer having a brightness of 90% or less, which can be referred to as a whitening layer, is mounted.

Since the metal in which the copper exists in the metal electrode of the touch panel is yellow, it is easy to observe the metallic reflection light shifted to yellow by the human eye. Therefore, the first color harmonization layer 65 can simultaneously adjust the color of the metal electrode itself and the hue of the metal electrode itself combined with the metal electrode itself, for example, a pure metal base material with reflectance> 50%, L> 90%, a <0.1, b> 2, so that the contrast chrominance can be reduced by making it closer to the color of the white of the screen (Paperwhite). The chromaticity of the first and second hologram layers 65 and 66 may be changed depending on the thickness of the material. The second color harmonization layer 66 can adjust the color of the first color harmonization layer 65 to be closer to a color similar to that of the screen paper or to a pure white color and to provide an anti-reflection, anti-interference, anti- And so on.

The form of the color harmonization layer can be further referred to the electrode structure embodiment shown in Figs. 7A and 7B. Figures 7A and 7B show the electrode structures 73 and 74 on the substrate 71 of the panel structure respectively and select one of these two different design types of electrode structures 73 and 74 And can be used as the electrode structure of the panel.

7A, when the adhesive layer 731 is provided between the electrode structure 73 and the substrate 71, the adhesive layer 731 strengthens the adhesion between the conductive layer 732 and the substrate 71, It is possible to reduce the problem that the electrode structure 73 is dropped while being bent. The upper part of the conductive layer 732 is a color harmonization layer 733. [

The adhesive layer 732 material includes one of the group consisting of a polymer material, an oxide material, a metal material, and a composite material thereof. The polymeric material includes acrylic, PET, PEI, PPSU, PI, PEDOT, Polyaniline, Polypyrrole or a combination of composites thereof. The oxide may be an amorphous or polycrystalline oxide thin film or powder structure. The component of the oxide may be titanium oxide, tantalum oxide, silicon oxide, aluminum oxide, or a combination of composites thereof. The metal can be copper, silver, aluminum, molybdenum, nickel, chromium, tungsten, titanium, silicon, zinc, tin, iron and other alloys or a combination of composites thereof. It is also possible to obtain a composite material which is a polymer, a combination of two or three kinds of metals and oxides, for example, a combination of a metal and an oxide, a combination of a polymer and a metal, a combination of a polymer and an oxide, or a combination of a metal and an oxide and a polymer . When a composite material is used, the proportion of the polymer is 10-90%, the proportion of the oxide is 10-90%, and the proportion of the metal is 10-90%. The oxide may have a multi-layer structure. For example, the thickness of titanium oxide is 900 nm and the thickness of silicon oxide is 100 nm. The thickness of the adhesive layer 732 is preferably in the range of 0.001 μm to 1 μm, and the reflectance should be in the range of 1% to 50%, preferably 30% or less.

7B shows that a roughening layer 743 is formed in the electrode structure 74, that is, in the conductive layer 741 and the color harmonization layer 742. The coarsened layer 743 reduces Thereby enhancing the invisibility of the naked eye. The roughened layer 743 can be formed by a method such as chemical etching (sulfuric acid, permanganic acid, etc.), mechanical physics or plasma cleaning (for example, rolling, ion beam, corona or atmospheric plasma) May be the same as the material of the color matching layer 742 bonded to the bottom.

The roughened structure in which the roughened layer 743 or the like is formed in the electrode structure 74 may be formed by an etching or the like, or other materials may be formed by electrolytic, sputtering or vapor deposition.

When the method of forming the roughened layer 743 is separately performed by applying an ultraviolet adhesive or using a material such as an organic silicone resin cured layer, the material of the roughened layer 743 may be different from the material of the color matching layer 742 have. The range of the roughness (Ra center line average roughness) of the roughened layer 743 is preferably 0.001 to 0.2 mu m, and the optimum roughness range is Ra = 0.02 to 0.1 mu m.

When the roughened layer is formed in the electrode structure, the embodiment shown in Fig. 8 can be referred to.

The panel structure main body of this example has a reflection type panel 81, a substrate 83 and an upper cover plate 85, and between them is bonded with optical transparent adhesives 801 and 802. In the electrode structure 87 for forming the substrate 83, the metal lead serves as a conductor, that is, as a conductive layer 872, and removes the metal reflection light, so as to match the background color of the reflective panel 81 A color harmonization layer 873 is formed on the conductive layer 872 and the lower portion is bonded to the substrate 83 through the adhesive layer 871. [

A roughening layer 874 may be formed on the color harmonization layer 873 and the roughness of the roughened layer 874 may be formed on the optical transparent adhesive 802, The haze of the eye can be reduced. In addition, since the optical transparent adhesive 802 is filled in the rough surface of the electrode structure 87, the hue of the color harmonization layer 873 is further adjusted to the background color of the reflection type panel 81, It may be closer to a pure white color or to a chromaticity more similar to the background color of the electronic paper and the white matrix.

Accordingly, one of the purposes of forming a color harmonization layer in an electrode structure in a touch panel device proposed by the present invention, for example, an electronic book, an electronic paper, a curved wristwatch, or an electronic tag, It is possible to increase the comfort of observing the display with the eyes and to improve the weather resistance of the metal conductive layer without affecting the conductivity of the metal conductive layer Thereby exhibiting a very excellent lifetime in a high-temperature bathing environment.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

2: substrate 10: substrate
11: transparent adhesive for optics 12: antireflection film
13: transparent adhesive for optics 14:
15: transparent adhesive for optics 16: display module
21a, 21b: electrode structure 23, 24: optical transparent adhesive
31: substrate 32: conductive layer
33, 34, 35, 36, 37 color matching layer 41:
42, 42 ': conductive layer 43, 43': colored layer
51: reflective panel 53: transparent adhesive for optical use
55: substrate 57, 58: electrode structure
61: substrate 63: conductive layer
65: first color harmonization layer 66: second color harmonization layer
71: substrate 73, 74: electrode structure
81: reflective panel 83: substrate
85: Cover plate 87: Electrode structure
101, 102: electrode structure 201: cover plate
205: first reflected light 206: second reflected light
505: first reflected light 506: second reflected light
571, 581: conductive layers 572, 582: colored layer
731: adhesive layer 732: conductive layer
733 Color matching layer 741: Conductive layer
742 color matching layer 743 roughening layer
801, 802: transparent adhesive for optical 871: adhesive layer
872: conductive layer 873: color harmonization layer
874: Coarse layer

Claims (9)

In the electrode structure having the color harmonization layer,
A conductive layer made of a metal conductive material; And
Wherein the electrode structure is formed by applying a silver-white metal to an electrode structure and forming a rough surface by processing the electrode structure to match the hue of the background material of the panel structure, And a color harmonization layer for removing reflected light generated from the conductive layer. The method according to claim 1,
Wherein the metal conductive material forms a metal lead electrode on the substrate of the panel structure. 3. The method of claim 2,
Wherein the hatching layer is formed by patterning the material of the hatching layer along the running direction of the metal wire electrode. The method according to claim 1,
Wherein the color harmonization layer is formed on the surface of the conductive layer. The method according to claim 1,
And the hatching layer is formed so as to completely cover the conductive layer. The method according to claim 1,
And a roughening layer is further formed on a surface of the electrode structure. A touch panel device in which an electrode structure having a color harmonization layer is provided,
Reflective panel; And
And a substrate coupled to the reflective panel and having one or more electrode structures formed on at least one surface thereof,
A conductive layer made of a metal conductive material; And
Wherein the electrode structure is formed by applying a silver-white metal to an electrode structure and forming a rough surface by processing the electrode structure to match the hue of the background material of the panel structure, And a color harmonizing layer for removing reflected light generated from the conductive layer. 8. The method of claim 7,
Wherein the metal conductive material forms a metal lead electrode on the substrate of the panel structure. 8. The method of claim 7,
Wherein the touch panel device is an electronic book, an electronic paper, a curved wrist watch or an electronic tag.

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