Patent application number | Description | Published |
20150047957 | FLEXIBLE TOUCH PANEL - A flexible touch panel comprises a base material sheet; a first axis detection electrode, which is provided on the base material sheet and is patterned concerning a first axis; an insulative layer, which is provided on the first axis detection electrode; a second axis detection electrode, which is provided on the insulative layer and is patterned concerning a second axis that is perpendicular to the first axis; a first routing circuit, which electrically connects the first axis detection electrode to an external part; and a second routing circuit, which electrically connects the second axis detection electrode to an external part. | 02-19-2015 |
20150138139 | CAPACITIVE TRANSPARENT TOUCH SHEET HAVING EXCELLENT VISIBILITY AND DURABILITY - A capacitive transparent touch sheet has excellent visibility and durability without changing the sensitivity, size, or the like of a touch panel. The capacitive transparent touch sheet comprises: a first conductive sheet including a first substrate to be adhered to the hard substrate, and a plurality of strip shaped first electrodes formed separately on a surface of the first substrate to be adhered to the hard substrate; a second conductive sheet including a second substrate disposed to oppose the first substrate, a plurality of strip shaped second electrodes formed on a surface of the second substrate opposing the first substrate and arranged to cross the first electrodes, and at least one insulation part formed continuously with the second electrodes, the at least one insulation part having a thickness the same as that of the second electrodes; and an adhesive layer that bonds the first and second conductive sheets together. | 05-21-2015 |
20150193046 | CAPACITIVE TRANSPARENT TOUCH SHEET HAVING EXCELLENT VISIBILITY AND DURABILITY - A capacitive transparent touch sheet has excellent visibility and durability without changing the sensitivity, size, or the like of a touch panel. A capacitive transparent touch sheet is a capacitive transparent touch sheet that comprises: a substrate; strip shaped first electrodes comprising a transparent metal oxide and formed separately on a first surface of the substrate; strip shaped second electrodes formed on a second surface of the substrate opposite to the first surface and to cross the first electrodes; and at least one insulation part formed continuously with the second electrodes and having a thickness the same as that of the second electrodes. The second electrodes comprise conductive nanofibers conductively connected with each other, and a binder resin for holding the conductive nanofibers on the substrate; and the at least one insulation part comprises the binder resin that constitutes the second electrodes without the conductive nanofibers. | 07-09-2015 |
Patent application number | Description | Published |
20090133783 | Colored Pure Titanium or Titanium Alloy Having Low Susceptibility to Discoloration in Atmospheric Environment - The present invention provides colored pure titanium or titanium alloy having low susceptibility to discoloration in an atmospheric environment exhibiting a superior resistance to discoloration even when the titanium is used in an environment of harsh acid rain such as a roof or wall material and free from deterioration of the aesthetic appearance over a long period of time, that is, colored pure titanium obtained by the anodic oxidation method, that is, colored pure titanium or titanium alloy having low susceptibility to discoloration in an atmospheric environment characterized by having an average phosphorus content in a range of 40 nm from a surface of a titanium oxide layer formed on the titanium surface of 5.5 atomic % or less and by having an average carbon concentration in a range of a depth of 100 nm from the titanium surface of 3 to 15 atomic %. | 05-28-2009 |
20090142586 | Titanium Sheet Covered with Protective Film Superior in High Temperature Oxidation Resistance and High Temperature Salt Damage Resistance, Automobile Exhaust System Using Same, and Methods of production of Same - The present invention provides a titanium sheet covered with a protective film superior in high temperature oxidation resistance and high temperature salt damage resistance and a method of production of the same and an automobile exhaust system using the same. The titanium sheet covered with a protective film is formed on its surface with a protective film of a thickness of 1 to 100 μm where flake-shaped metal Al with an average thickness of 0.1 to 5 μm and average width or average length of 1 to 50 μm or grain-shaped metal Al with an average size of 0.1 to 30 μm is dispersed in 20 to 60 mass % silicone resin or silicone grease and comprised of Si: 15 to 55 mass % and C: 10 to 45 mass % and having a balance of unavoidable impurities. Preferably the titanium sheet of the substrate contains one or both of 0.5 to 2.1 mass % of Cu and 0.4 to 2.5 mass % of Al. The method of production is to brush or spray the above composition of a silicone resin on a titanium sheet to form a protective film and heat it at 150 to 300° C. for 5 to 60 minutes. | 06-04-2009 |
20090197143 | POLYMER ELECTROLYTE FUEL CELL SEPARATOR MADE OF PURE TITANIUM OR TITANIUM ALLOY AND METHOD OF PRODUCTION OF SAME - The present invention provides a polymer electrolyte fuel cell separator made of pure titanium or a titanium alloy superior in contact resistance with carbon paper and a method of production of the same, that is, a separator having a surface layer part to which conductive compound particles are affixed, characterized in that the surface oxide has a thickness of 3 to 15 nm in range, an average carbon concentration in a range from an outermost surface, including the oxide layer, to a depth of 100 nm is 0.02 to 6 at %, and the conductive compound particles have an average particle size of 0.01 to 20 μm. Further, the method of production of the present invention is characterized by forming, blast treating a surface of the formed article by particles comprised of conductive compound particles of an average particle size of 0.01 to 20 μm covering a surface of superhard core particles, impregnating it by a nitric acid aqueous solution of a concentration of 15 to 71 mass % and a temperature of 40 to 100° C. for 30 seconds to 180 minutes by spraying or dipping, then washing it. | 08-06-2009 |
20110177430 | Titanium material for solid polymer fuel cell separator having low contact resistance and method of production of same - A titanium material for a solid polymer fuel cell separator having a low contact resistance and a method of production of the same, the titanium material having at its surface a surface layer structure in which particles of a Ti compound containing either C or N are dispersed, the particles of Ti compound being covered by titanium oxide and/or metal Ti, characterized in that, when analyzed from the surface by XPS, a Ti2p spectrum of TiO | 07-21-2011 |
20150147678 | TITANIUM OR TITANIUM ALLOY MATERIAL FOR FUEL CELL SEPARATOR HAVING HIGH CONTACT CONDUCTIVITY WITH CARBON AND HIGH DURABILITY, FUEL CELL SEPARATOR INCLUDING THE SAME, AND MANUFACTURING METHOD THEREFOR - [Object] To provide a titanium or titanium alloy material for a separator of a polymer electrolyte fuel cell having high contact conductivity with carbon and high durability. | 05-28-2015 |
20150280251 | TITANIUM MATERIAL OR TITANIUM ALLOY MATERIAL FOR FUEL CELL SEPARATOR HAVING HIGH CONTACT CONDUCTIVITY WITH CARBON AND HIGH DURABILITY, FUEL CELL SEPARATOR INCLUDING THE SAME, AND FUEL CELL - [Object] To increase contact conductivity with carbon and durability of a titanium or titanium alloy material for a fuel cell separator so as to increase the lifetime of a fuel cell. [Solution] Provided is a titanium or titanium alloy material for a fuel cell separator having a surface shape in which a plurality of projections are distributed, and a titanium oxide film on a surface of the projections. Fine projections are assumed to increase the contact conductivity remarkably. The present invention has high usability in the cell manufacturing industry. | 10-01-2015 |
20150325864 | TITANIUM OR TITANIUM ALLOY FOR FUEL CELL SEPARATOR HAVING HIGH CONTACT CONDUCTIVITY WITH CARBON AND HIGH DURABILITY, FUEL CELL SEPARATOR INCLUDING THE SAME, AND FUEL CELL - [Object] To increase contact conductivity with carbon and durability of a titanium or titanium alloy material for a fuel cell separator so as to increase the lifetime of a fuel cell. | 11-12-2015 |
Patent application number | Description | Published |
20110024163 | Print Circuit Board With High Insulated Region, Method Of Manufacturing Thereof, And Print Circuit Board Assembly Thereof - A print circuit board includes: a first surface; a guard plane disposed on an inner layer; a high insulated region formed on the first surface of the board so as to be opposed to the guard plane, the high insulated region being substantially surrounded by one or more first guard patterns; and a quasi-high insulated region formed on the first surface of the board so as to be disposed adjacent to the high insulated region. The quasi-high insulated region is substantially surrounded by at least a part of the one or more first guard patterns and by one or more second guard patterns, in which the one or more first guard patterns and the one or more second guard patterns are each formed by forming one or more trenches in the first surface of the board so as to expose the guard plane on a bottom surface of the trenches. | 02-03-2011 |
20150309109 | INTER-TERMINAL CAPACITANCE MEASUREMENT METHOD FOR THREE-TERMINAL DEVICE AND APPARATUS FOR THE SAME - Provided are a measurement apparatus and a measurement method capable of measuring inter-terminal capacitances of a three-terminal device while reproducibility is high and influences of residual inductances are cancelled. The measurement apparatus includes: a route selector including a first terminal, a second terminal, a third terminal, a fourth terminal, a fifth terminal, and a sixth terminal, the fourth to sixth terminals being configured to connect to any of the first to third terminals; an LCR meter; a device under test, which is a three-terminal device; first, second, and third cables for respectively connecting the fourth to sixth terminals of the first route selector and first, second, and third terminals of the device under test to each other; and fourth, fifth, and sixth cables for respectively connecting the first to third terminals of the first route selector and first, second, and third terminals of the LCR meter to each other. | 10-29-2015 |
Patent application number | Description | Published |
20120135076 | INTRABUCCALLY RAPIDLY DISINTEGRATING TABLET AND A PRODUCTION METHOD OF THE TABLETS - An intrabuccally rapidly disintegrating tablet which is manufactured by a simple method, has an enough practical hardness and is rapidly disintegrated in the buccal cavity and its production method. The intrabuccally rapidly disintegrating tablet is produced by growing a powder material into a granulated material with a fixed particle diameter, the powder material including a sugar alcohol or a saccharide as main ingredient, each of which is first particle having an average particle diameter of not more than 30 μm, by mixing thus obtained granulated material with an active ingredient and a disintegrant, and by compressing the mixture into a predetermined shape. | 05-31-2012 |
20130281546 | INTRABUCCALLY RAPIDLY DISINTEGRATING TABLET AND A PRODUCTION METHOD OF THE TABLETS - An intrabuccally rapidly disintegrating tablet which is manufactured by a simple method, has an enough practical hardness and is rapidly disintegrated in the buccal cavity and its production method. The intrabuccally rapidly disintegrating tablet is produced by growing a powder material into a granulated material with a fixed particle diameter, the powder material including a sugar alcohol or a saccharide as main ingredient, each of which is first particle having an average particle diameter of not more than 30 μm, by mixing thus obtained granulated material with an active ingredient and a disintegrant, and by compressing the mixture into a predetermined shape. | 10-24-2013 |
20140193496 | INTRABUCCALLY RAPIDLY DISINTEGRATING TABLET AND A PRODUCTION METHOD OF THE TABLETS - An intrabuccally rapidly disintegrating tablet which is manufactured by a simple method, has an enough practical hardness and is rapidly disintegrated in the buccal cavity and its production method. The intrabuccally rapidly disintegrating tablet is produced by growing a powder material into a granulated material with a fixed particle diameter, the powder material including a sugar alcohol or a saccharide as main ingredient, each of which is first particle having an average particle diameter of not more than 30 μm, by mixing thus obtained granulated material with an active ingredient and a disintegrant, and by compressing the mixture into a predetermined shape. | 07-10-2014 |
Patent application number | Description | Published |
20120014701 | REPLACEMENT TONER CARTRIDGE MANAGEMENT APPARATUS, REPLACEMENT TONER CARTRIDGE MANAGEMENT SYSTEM, IMAGE FORMING APPARATUS, REPLACEMENT TONER CARTRIDGE MANAGEMENT METHOD, AND RECORDING MEDIUM - A replacement toner cartridge management apparatus is provided with: a receiver which receives toner cartridge replacement information indicating a toner cartridge loaded on an image forming apparatus which the replacement toner cartridge management apparatus can access via a communication circuit, has been replaced with a new one; an information obtainer which obtains remaining toner information of the toner cartridge removed from the image forming apparatus, when the toner cartridge replacement information is received by the receiver; a time determiner which, if the remaining toner information obtained by the information obtainer indicates a value smaller than a predetermined value, determines that an instruction to deliver a replacement toner cartridge should be outputted when the toner cartridge replacement information is received, or if the remaining toner information indicates a value larger than or equal to a predetermined value, determines that an instruction to deliver a replacement toner cartridge should be outputted at a different time; and a transmitter which outputs a delivery instruction according to the determination made by the time determiner. | 01-19-2012 |
20150248092 | IMAGE FORMING APPARATUS - An image forming apparatus includes a time setting unit that sets a print allowable time according to the amount of advance payment, a usage time count unit that counts a usage time and a print allowance determination unit that determines, from the time setting unit and the usage time count unit, whether printing is allowed or prohibited. Before the time counted by the usage time count unit reaches the print allowable time, the print allowance determination unit allows the printing to be performed whereas after the time counted by the usage time count unit reaches the print allowable time, the print allowance determination unit prohibits the printing from being performed. | 09-03-2015 |
Patent application number | Description | Published |
20120065057 | PHOTOCATALYST BODY, PHOTOCATALYST DISPERSION, AND METHOD FOR MANUFACTURING PHOTOCATALYST BODY - According to one embodiment, a photocatalyst body satisfies at least one condition described below, (1) a ratio of an absorption intensity at a wave number of 3450 cm | 03-15-2012 |
20130244092 | ELECTRODE MATERIAL FOR BATTERY, ELECTRODE MATERIAL PASTE FOR BATTERY, AND SOLAR CELL USING SAME, STORAGE BATTERY, AND METHOD FOR MANUFACTURING SOLAR CELL - According to one embodiment, an electrode material for a battery includes a tungsten oxide powder or a tungsten oxide composite powder provided with a coating unit containing at least one selected from a metal oxide, silicon oxide, a metal nitride, and silicon nitride. | 09-19-2013 |
20130252084 | SUBSTRATE AND SECONDARY BATTERY - According to one embodiment, a substrate includes a semiconductor layer. The semiconductor layer comprises tungsten oxide particles having a first peak in a range of 268 to 274 cm | 09-26-2013 |
20140287232 | HIGHLY CRYSTALLIZED PARTICLES AND PRODUCTION METHOD THEREOF - According to one embodiment, there is provided a method for producing highly crystallized particles having a specific surface area of 5 m | 09-25-2014 |
20150093637 | SECONDARY BATTERY - According to one embodiment, there is provided a secondary battery. This secondary battery includes an electrode and an organic-fiber layer. The electrode includes a current collector including an edge part, an active material-containing layer including an end part supported on the edge part, and a current-collecting tab including a surface a part of which is adjacent to the edge part. The organic-fiber layer is bonded with the end part of the active material-containing layer with maximum thickness and with the part of the surface of the current-collecting tab. | 04-02-2015 |
Patent application number | Description | Published |
20100252454 | Method of measuring quantity of substrate - A method of measuring a quantity of a substrate contained in sample liquid is provided. This method can reduce measurement errors caused by a biosensor. The biosensor includes at least a pair of electrodes on an insulating board and is inserted into a measuring device which includes a supporting section for supporting detachably the biosensor, plural connecting terminals to be coupled to the respective electrodes, and a driving power supply which applies a voltage to the respective electrodes via the connecting terminals. One of the electrodes of the biosensor is connected to the first and second connecting terminals of the measuring device only when the biosensor is inserted into the measuring device in a given direction, and has a structure such that the electrode becomes conductive between the first and second connecting terminals due to a voltage application by the driving power supply. | 10-07-2010 |
20100320097 | Method of measuring quantity of substrate - A method of measuring a quantity of a substrate contained in sample liquid is provided. This method can reduce measurement errors caused by a biosensor. The biosensor includes at least a pair of electrodes on an insulating board and is inserted into a measuring device which includes a supporting section for supporting detachably the biosensor, plural connecting terminals to be coupled to the respective electrodes, and a driving power supply which applies a voltage to the respective electrodes via the connecting terminals. One of the electrodes of the biosensor is connected to the first and second connecting terminals of the measuring device only when the biosensor is inserted into the measuring device in a given direction, and has a structure such that the electrode becomes conductive between the first and second connecting terminals due to a voltage application by the driving power supply. | 12-23-2010 |
20110132776 | Method of measuring quantity of substrate - A method of measuring a quantity of a substrate contained in sample liquid is provided. This method can reduce measurement errors caused by a biosensor. The biosensor includes at least a pair of electrodes on an insulating board and is inserted into a measuring device which includes a supporting section for supporting detachably the biosensor, plural connecting terminals to be coupled to the respective electrodes, and a driving power supply which applies a voltage to the respective electrodes via the connecting terminals. One of the electrodes of the biosensor is connected to the first and second connecting terminals of the measuring device only when the biosensor is inserted into the measuring device in a given direction, and has a structure such that the electrode becomes conductive between the first and second connecting terminals due to a voltage application by the driving power supply. | 06-09-2011 |
20110132777 | Method of measuring quantity of substrate - A method of measuring a quantity of a substrate contained in sample liquid is provided. This method can reduce measurement errors caused by a biosensor. The biosensor includes at least a pair of electrodes on an insulating board and is inserted into a measuring device which includes a supporting section for supporting detachably the biosensor, plural connecting terminals to be coupled to the respective electrodes, and a driving power supply which applies a voltage to the respective electrodes via the connecting terminals. One of the electrodes of the biosensor is connected to the first and second connecting terminals of the measuring device only when the biosensor is inserted into the measuring device in a given direction, and has a structure such that the electrode becomes conductive between the first and second connecting terminals due to a voltage application by the driving power supply. | 06-09-2011 |
20120043227 | Method of measuring quantity of substrate - A method of measuring a quantity of a substrate contained in sample liquid is provided. This method can reduce measurement errors caused by a biosensor. The biosensor includes at least a pair of electrodes on an insulating board and is inserted into a measuring device which includes a supporting section for supporting detachably the biosensor, plural connecting terminals to be coupled to the respective electrodes, and a driving power supply which applies a voltage to the respective electrodes via the connecting terminals. One of the electrodes of the biosensor is connected to the first and second connecting terminals of the measuring device only when the biosensor is inserted into the measuring device in a given direction, and has a structure such that the electrode becomes conductive between the first and second connecting terminals due to a voltage application by the driving power supply. | 02-23-2012 |
20130020208 | METHOD OF MEASURING QUANTITY OF SUBSTRATE - A method of measuring a quantity of a substrate contained in sample liquid is provided. This method can reduce measurement errors caused by a biosensor. The biosensor includes at least a pair of electrodes on an insulating board and is inserted into a measuring device which includes a supporting section for supporting detachably the biosensor, plural connecting terminals to be coupled to the respective electrodes, and a driving power supply which applies a voltage to the respective electrodes via the connecting terminals. One of the electrodes of the biosensor is connected to the first and second connecting terminals of the measuring device only when the biosensor is inserted into the measuring device in a given direction, and has a structure such that the electrode becomes conductive between the first and second connecting terminals due to a voltage application by the driving power supply. | 01-24-2013 |