Koji Miyazaki
Koji Miyazaki, Nagahama-Shi JP
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20100009121 | LAMINATED MATERIAL FOR METAL KEY-SHEET, METAL KEY-SHEET, AND METAL KEYPAD - The present invention provides a laminated material for metal key-sheet to be used for input button portion of information terminal devices, the laminated material for metal key-sheet including: at least a transparent resin sheet and a metal plate, wherein cut-out letters and so on are formed in the laminated material by etching. The present invention also provides a metal key-sheet in which cut-out letters with a lot of flexibility of design can be formed, and a metal keypad which can be produced by simple methods. | 01-14-2010 |
Koji Miyazaki, Amagasaki JP
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20080224081 | Valve Assembly - The present invention has an object to improve the flow property so as to increase the gas flow amount, to inhibit the gas from staying within a valve chamber, and to enhance the gas-replacement property such as evacuation performance and purge performance. | 09-18-2008 |
Koji Miyazaki, Minato-Ku JP
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20120329059 | METHOD FOR CONSTRUCTING NOVEL BACTERIUM BELONGING TO THE GENUS BIFIDOBACTERIUM - A method for producing bacteria belonging to the genus | 12-27-2012 |
Koji Miyazaki, Kitakyushu-Shi JP
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20130019598 | STEAM GENERATOR AND ENERGY SUPPLY SYSTEM USING THE SAME - The present invention provides a steam generator capable of greatly improving energy efficiency, and an energy supply system that uses the steam generator. The steam generator of the present invention includes a high-temperature chamber to which heat of 250° C. to 800° C. is supplied; a low-temperature chamber arranged adjacent to the high-temperature chamber and configured to produce low-temperature steam of 50° C. to 185° C. from water using the heat of the high-temperature chamber; and at least one thermoelectric element arranged between the high-temperature chamber and the low-temperature chamber. | 01-24-2013 |
20150013741 | THERMOELECTRIC CONVERSION MATERIAL - The present invention provides a thermoelectric conversion material of which the structure is controlled to have nano-order microscopic pores and which has a low thermal conductivity and has an improved thermoelectric performance index. In the thermoelectric conversion material having a thermoelectric semiconductor layer formed on a block copolymer substrate that comprises a block copolymer having microscopic pores, wherein the block copolymer comprises a polymer unit (A) formed of a monomer capable of forming a homopolymer having a glass transition temperature of 50° C. or higher, and a polymer unit (B) formed of a conjugated dienic polymer. | 01-15-2015 |
20150048283 | THERMOELECTRIC CONVERSION MATERIAL AND METHOD FOR MANUFACTURING SAME - The present invention provides a thermoelectric conversion material excellent in thermoelectric performance and flexibility and capable of being produced in a simplified manner and at a low cost, and a method for producing the material. The thermoelectric conversion material has, on a support, a thin film of a thermoelectric semiconductor composition containing thermoelectric semiconductor fine particles and a conductive polymer, and the method for producing a thermoelectric conversion material includes a step of applying the thermoelectric semiconductor composition containing thermoelectric semiconductor fine particles and a conductive polymer onto the support and drying it to forma thin film thereon. | 02-19-2015 |
Koji Miyazaki, Toyota-Shi JP
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20140195087 | CONTROL APPARATUS FOR HYBRID VEHICLE - A control apparatus for a hybrid vehicle is provided with an engine, an electric motor, and a clutch disposed in a power transmitting path between the engine and the electric motor, a drive mode of the hybrid vehicle being switched on the basis of a required drive force of the hybrid vehicle, between a first drive mode in which said engine is placed in an operated state while said clutch is placed in an engaged state, and a second drive mode in which said electric motor is exclusively used as a drive power source to run the hybrid vehicle while said engine is placed in a rest state and while said clutch is placed in a released state; and a range in which said second drive mode is established being narrower when a temperature of said clutch is comparatively high, than when said temperature is comparatively low. | 07-10-2014 |
Koji Miyazaki, Hino-Shi JP
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20150056649 | METHOD FOR QUANTIFYING CELL OF INTEREST IN BLOOD, AND METHOD FOR EVALUATING SYSTEM FOR QUANTIFYING SAID CELL - A method for quantifying cells of interest potentially contained in a blood-derived sample in cases of their quantification after separation from the blood-derived sample may enable accurate quantification of the cells without causing underestimation of the cell number. The quantification method is a method for quantifying specific cells of interest, the method may include: (A) separating a blood-derived sample containing a known number (P0) of specific resin particles P into at least two layers including a layer of erythrocytes and a layer of cells other than erythrocytes; (B) extracting the layer of cells other than erythrocytes and counting the number of cells of interest and the number (P1) of the resin particles therein; and (C) correcting the number of cells of interest by multiplying the number of cells of interest by P0/P1. | 02-26-2015 |
Koji Miyazaki, Chiyoda-Ku JP
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20150122303 | THERMOELECTRIC CONVERSION MATERIAL USING SUBSTRATE HAVING NANOSTRUCTURE, AND METHOD FOR PRODUCING SAME - The present invention provides a thermoelectric conversion material having a low thermal conductivity and having an improved figure of merit, and a method for producing it. The thermoelectric conversion material has, as formed on a substrate having a nano-level microporous nanostructure, a thermoelectric semiconductor layer prepared by forming a thermoelectric semiconductor material into a film, wherein the substrate is a block copolymer substrate formed of a block copolymer that comprises a polymethyl methacrylate unit and a polyhedral oligomeric silsesquioxane-containing polymethacrylate unit, and the thermoelectric semiconductor material is a p-type bismuth telluride or an n-type bismuth telluride. The production method comprises a substrate formation step of forming the nanostructure-having block copolymer substrate, and a film formation step of forming a p-type bismuth telluride or an n-type bismuth telluride into a film to thereby provide a thermoelectric semiconductor layer. | 05-07-2015 |