Patent application number | Description | Published |
20110211251 | LAMINATE - The present invention relates to a laminate that includes a pair of substrates; and one or more photochromic films and one or more infrared (IR) shield films that are provided between the pair of substrates, wherein the photochromic films or the infrared (IR) shield films that are in contact with a pair of substrates are adhered to the substrates by an adhesion film. The laminate according to the present invention has a high durable photochromic function having a UV shielding effect and an infrared (IR) shielding effect. | 09-01-2011 |
20110233194 | PARTIAL HEAT-EMITTING BODY - The present invention provides a partial heat-emitting body including a transparent substrate and a conductive heating element provided within a distance of 20 cm or less from at least one edge portion among edge portions of at least one surface of the transparent substrate. | 09-29-2011 |
20110272394 | HEATING ELEMENT AND A MANUFACTURING METHOD THEREOF - The present invention provides a heat emitting body including a) a transparent substrate, and b) a conductive heat emitting pattern having a boundary line shape of figures forming a Voronoi diagram and an intersection point part of boundary lines, at which two or more boundary lines meet each other, forming a curve on at least one side of the transparent substrate, and a method for manufacturing the same. | 11-10-2011 |
20120031746 | TOUCH SCREEN AND MANUFACTURING METHOD THEREOF - The present invention provides a method of manufacturing a touch screen, comprising the steps of: a) forming a conductive layer on a substrate; b) forming an etching resist pattern on the conductive layer; and c) forming a conductive pattern having a line width smaller than the line width of the etching resist pattern by over-etching the conductive layer by using the etching resist pattern and a touch screen manufactured by the method. According to the present invention, a touch screen comprising a conductive pattern having an ultrafine line width can be economically and efficiently provided. | 02-09-2012 |
20120261404 | HEATING ELEMENT AND MANUFACTURING METHOD THEREOF - The present invention provides a heating element, including a transparent substrate, an adhesive agent layer provided on at least one side of the transparent substrate, a conductive heat emitting line provided on the adhesive agent layer, a coating film capsulating the conductive heat emitting line and an upper side of the adhesive agent layer not covered by the heat emitting line, a bus bar electrically connected to the conductive heat emitting line, and a power part connected to the bus bar, and a manufacturing method thereof. | 10-18-2012 |
20120292307 | HEATING GLASS AND MANUFACTURING METHOD THEREOF - The present invention provides a heating glass including a glass; a transparent conductive oxide (TCO) layer formed on one surface of the glass; and a thermal conductive pattern formed on the transparent conductive oxide layer, and a method of manufacturing the same. | 11-22-2012 |
20130020303 | HEATING ELEMENT AND METHOD FOR MANUFACTURING SAME - The present invention relates to a heating element and to a method for manufacturing same, and more particularly, to a heating element and to a method for manufacturing same wherein the heating element comprises a) a transparent substrate, and b) a conductive heating pattern formed on at least one surface of the transparent substrate, wherein the average distance between lines in a vertical direction of the conductive heating pattern is wider than the average distance between lines in a horizontal direction thereof. The heating element according to the present invention not only minimizes the side effects due to diffraction and interference phenomena of light but also exhibits superior heating performance at a low voltage while being invisible. | 01-24-2013 |
20130095329 | FLUORINE-BASED POLYMER THIN FILM AND METHOD FOR PREPARING SAME - The present invention relates to a fluorine-based polymer thin film and a method of manufacturing the same, and the method of manufacturing a fluorine-based polymer thin film according to the present invention comprises the steps of: a) forming the fluorine-based polymer thin film on a first substrate; b) forming a thin layer comprising a first functional group on the fluorine-based polymer thin film; c) forming a thin layer comprising a second functional group on a second substrate; and d) chemically bonding the first functional group and the second functional group to each other. According to the present invention, a fluorine-based polymer thin film can be stably formed on a substrate, and it is possible to improve durability and maintain water repellency and contamination resistance properties over a long period of time. Further, a method of forming the fluorine-based polymer thin film on the substrate according to the present invention has excellent work processability and easiness in repairing when the substrate is broken. | 04-18-2013 |
20130153559 | HEATING ELEMENT AND A PRODUCTION METHOD THEREOF - The present invention relates to a heating element comprising: two or more heating units comprising two busbars and a conductive heating means electrically connected to the two busbars, in which the busbars of the heating units are connected with each other in series and power per unit area of each of the heating units in the heating element decreases as a length of the busbar increases, and a method of preparing the same. | 06-20-2013 |
20130153879 | ORGANIC LIGHT-EMITTING DEVICE - The present invention provides an organic light emitting device including: a substrate; and two or more stacked light emitting elements, which comprise a first electrode, at least one intermediate electrode, a second electrode, and an organic material layer disposed between the electrodes, the stacked organic light emitting elements including a first group of electrodes electrically connected to each other such that among the electrodes, at least two electrodes, which are not adjacent to each other, become a common electric potential, and a second group of electrodes which include one electrode among electrodes which are not electrically connected to the first group of electrodes, or at least two electrodes which are not electrically connected to the first group of electrodes and are electrically connected to each other so as to be a common electric potential without being adjacent to each other, in which the stacked organic light emitting elements are disposed at an interval apart from each other on the substrate and driven by an alternating current power source such that a form, in which a first group of electrodes of one stacked organic light emitting element among the stacked organic light emitting elements are directly connected to a second group of electrodes of another stacked organic light element, is continuously repeated. | 06-20-2013 |
20130175255 | HEATING ELEMENT AND A MANUFACTURING METHOD THEREOF - The present invention relates to a heating element including a transparent substrate, a bus bar, a power supply connected to the bus bar, a heat emitting pattern line provided on the transparent substrate and electrically connected to the bus bar, and a non-heat emitting pattern line provided on the transparent substrate and not electrically connected to the bus bar, and a method for manufacturing the same. | 07-11-2013 |
20130208198 | DISPLAY DEVICE INCLUDING A CONDUCTIVE PATTERN - The present invention provides a display device comprising a display panel and a conductive pattern, in which the conductive pattern comprises an irregular pattern. | 08-15-2013 |
20130248239 | ELECTRICAL CONDUCTOR AND A PRODUCTION METHOD THEREFOR - Provided are an electrical conductor and a production method therefor; the electrical conductor comprising a transparent substrate and an electro-conductive pattern provided on at least one surface of the transparent substrate, and the electroconductive pattern being of a type such that, for at least 30% of the entire surface area of the transparent substrate, when a straight line is drawn intersecting the electroconductive pattern, the ratio of the standard deviation to the mean value of the distances between adjacent points of intersection between the straight line and the electroconductive pattern (the distance distribution ratio) is at least 2%. Also, provided are an electrical conductor and a production method therefor; the electrical conductor comprising a transparent substrate and an electroconductive pattern provided on at least one surface of the transparent substrate, and the electroconductive pattern being of a type such that at least 30% of the entire surface area of the transparent substrate is accounted for by continuously distributed closed motifs, and the ratio of the standard deviation to the mean value of the surface areas of the closed motifs (the surface area distribution ratio) is at least 2%. | 09-26-2013 |
20130292373 | HEATING ELEMENT AND MANUFACTURING METHOD THEREOF - The present invention provides a heating element, including a transparent substrate, an adhesive agent layer provided on at least one side of the transparent substrate, a conductive heat emitting line provided on the adhesive agent layer, a coating film capsulating the conductive heat emitting line and an upper side of the adhesive agent layer not covered by the heat emitting line, a bus bar electrically connected to the conductive heat emitting line, and a power part connected to the bus bar, and a manufacturing method thereof. | 11-07-2013 |
20130309451 | SUPERHYDROPHOBIC SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - There is provided a superhydrophobic substrate comprising a plurality of protrusions having a pseudo random distribution on one surface thereof, an average interval between respective protrusions among the plurality of protrusions being greater than an interval between light beam wave peaks of light within the visible spectrum, allowing the substrate to have durability and transparency secured therein. | 11-21-2013 |
20130309745 | POROUS STRUCTURE FOR FORMING AN ANTI-FINGERPRINT COATING, METHOD FOR FORMING AN ANTI-FINGERPRINT COATING USING THE POROUS STRUCTURE, SUBSTRATE COMPRISING THE ANTI-FINGER-PRINT COATING FORMED BY THE METHOD, AND PRODUCTS COMPRISING THE SUBSTRATE - Provided are a porous structure for forming anti-fingerprint coating capable of providing a self-cleaning function to a surface of a substrate, a method of forming anti-fingerprint coating using the same, an anti-fingerprint coated substrate prepared by the same method, and a product including the same. When the porous structure including a lipolytic enzyme is formed on the surface of the substrate, contaminants decomposed by an enzyme are absorbed into a pore, and thus anti-fingerprint coating may be more effectively performed to remove detectable contamination from a surface of the substrate. As a result, contamination by fingerprints on the surface of a display device, the appearance of an electronic device, or building materials can be effectively reduced. | 11-21-2013 |
20130323510 | RESIN BLEND - Provided is a resin blend including a first resin and a second resin, the second resin having a hydrophobic functional group in a side chain and having a surface energy difference of 0.1 to 20 mN/m from the first resin at 25° C., the resin blend being capable of forming a layer separation structure. Also, provided are a pellet, a method for preparing the same, and a resin molding articlemolding article having a specific layer separation structure. The resin blend may not only improve mechanical properties and surface hardness of the molding articlemolding article but also shorten process time, increase productivity and reduce production cost by omitting an additional surface coating step. | 12-05-2013 |
20130327757 | HEATING ELEMENT AND METHOD FOR MANUFACTURING SAME - The present invention relates to a heating element in which distortion of a view due to local heating around a heating line does not occur even when a heating value is high, and a method for manufacturing the same. More specifically, the heating element according to the present invention comprises a transparent substrate and conductive heating lines provided on the transparent substrate, in which a line width of the conductive heating line is 10 μm or less and a distance between the conductive heating lines is 500 μm or less. | 12-12-2013 |
20130341079 | TRANSPARENT CONDUCTIVE SUBSTRATE AND METHOD FOR MANUFACTURING SAME - The present invention provides a transparent conductive substrate comprising: a transparent substrate, and a conductive pattern provided on the transparent substrate, wherein the conductive pattern comprises line breakage portions performing electric breakage, and a pattern of a broken line formed when the line breakage portions are connected comprises an irregular pattern shape. The present invention can minimize a moiré phenomenon and a diffraction phenomenon by external light by performing line breakage of a regular or irregular conductive pattern by using the irregular pattern. | 12-26-2013 |
20140083991 | HEATING ELEMENT AND METHOD FOR MANUFACTURING SAME - The present specification relates to a heating element in which a heating value for each region is controlled or a heating element in which the heating value for each region is controlled and which is inconspicuous, and a method for manufacturing the same. | 03-27-2014 |
20140092323 | TOUCH PANEL COMPRISING CONDUCTIVE PATTERN - The present invention relates to a touch panel comprising a conductive pattern having improved transmittance and concealing property, and the touch panel according to the present invention can have an effect of improvement in transmittance, a concealing property, and uniformity, and a reduction in strength of a diffraction pattern by reflection light in a conductive pattern by providing the conductive patterns comprising regions having different aperture ratios on both surfaces of a transparent substrate at predetermined positions, or laminating the transparent substrate having the conductive patterns comprising the regions having different aperture ratios. | 04-03-2014 |
20140117003 | HEATING ELEMENT AND METHOD FOR MANUFACTURING SAME - The present specification relates to a heating element in which a heating value for each region is controlled or a heating element in which the heating value for each region is controlled and which is inconspicuous, and a method for manufacturing the same. | 05-01-2014 |
20140158677 | HEATING GLASS AND MANUFACTURING METHOD THEREOF - The present invention provides a heating glass including a glass; a transparent conductive oxide (TCO) layer formed on one surface of the glass; and a thermal conductive pattern formed on the transparent conductive oxide layer, and a method of manufacturing the same. | 06-12-2014 |
20140168543 | TOUCH PANEL COMPRISING CONDUCTIVE PATTERN - The present invention relates to a touch panel comprising a conductive pattern having improved transmittance and concealing property, and the touch panel according to the present invention can have an effect of improvement in transmittance, a concealing property, and uniformity, and a reduction in strength of a diffraction pattern by reflection light in a conductive pattern by providing the conductive patterns comprising regions having different aperture ratios on both surfaces of a transparent substrate at predetermined positions, or laminating the transparent substrate having the conductive patterns comprising the regions having different aperture ratios. | 06-19-2014 |
20140198269 | TRANSPARENT CONDUCTIVE SUBSTRATE AND METHOD FOR MANUFACTURING SAME - The present invention provides a transparent conductive substrate comprising: a transparent substrate, and a conductive pattern provided on the transparent substrate, wherein the conductive pattern comprises line breakage portions performing electric breakage, and a pattern of a broken line formed when the line breakage portions are connected comprises an irregular pattern shape. The present invention can minimize a moiré phenomenon and a diffraction phenomenon by external light by performing line breakage of a regular or irregular conductive pattern by using the irregular pattern. | 07-17-2014 |
20140255699 | RESIN BLEND - Provided are a resin blend, which includes a first resin, and a second resin having hydrogen-binding donor and acceptor, and having a difference in surface energy from the first resin at 25° C. of 0.1 to 35 mN/m, and is formed in a layer-separated structure, a pellet, a method of manufacturing the same, and a resin molded article having a specific layer-separated structure. Because of the resin blend, a molded article may have enhanced mechanical properties and surface hardness, and additional surface coating may be omitted, thereby reducing a processing time, increasing productivity, and reducing production costs. | 09-11-2014 |
20140255700 | RESIN BLEND (AS AMENDED) - Provided are a resin blend including a first resin, and a second resin having a hydrophobic moiety represented by Formula 1 at a main chain and having a difference in surface energy from the first resin at 25° C. of 0.1 to 20 mN/m, and formed in a layer-separated structure, a pellet, a method of manufacturing the same, and a resin molded article having a specific layer-separated structure. Because of the resin blend, a molded product may have enhanced mechanical properties and surface hardness, and additional surface coating may be omitted, thereby reducing a processing time, increasing productivity, and reducing production costs. | 09-11-2014 |
20150025171 | RESIN BLEND - Provided is a resin blend including a first resin and a second resin, the second resin having a hydrophobic functional group in a side chain and having a surface energy difference of 0.1 to 20 mN/m from the first resin at 25° C., wherein the resin blend is capable of forming a layer separation structure. Also, provided are a pellet, a method for preparing the same, and a resin molding article having a specific layer separation structure. The resin blend may not only improve mechanical properties and surface hardness of the molding article but also shorten process time, increase productivity and reduce production cost by omitting an additional surface coating step. | 01-22-2015 |