Masami Nishida
Masami Nishida, Hiroshima-Shi JP
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20110041786 | SPARK IGNITED INTERNAL COMBUSTION ENGINE SYSTEM - There is provided, in one aspect of the present description, an internal combustion engine system. In one example, the system comprises a controller configured to control an intake valve closing timing varying mechanism to vary a closing timing of the intake valve to regulate air charged in a combustion chamber in accordance with engine operating conditions and, in a first engine operating condition where a least volume of air is required to be charged into the combustion chamber, retard a closing timing of the intake valve to a most retarded crank angle which is after bottom dead center during a cylinder cycle and satisfies the following formulas: | 02-24-2011 |
20110094473 | SPARK-IGNITION INTERNAL COMBUSTION ENGINE - Provided is a spark-ignition internal combustion engine capable of ensuring engine output power while setting a geometric compression ratio of an engine body to a high value. In the spark-ignition internal combustion engine, each of a clearance between a top surface ( | 04-28-2011 |
20140000568 | FUEL INJECTION DEVICE OF DIRECT INJECTION ENGINE | 01-02-2014 |
20140001290 | FUEL INJECTION VALVE OF DIRECT INJECTION ENGINE | 01-02-2014 |
Masami Nishida, Saitama JP
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20110072446 | DISK CLAMPING MECHANISM AND DISK DRIVE SYSTEM - A disclosed disk clamping mechanism includes a turntable fixed on a rotational shaft of a spindle motor to rotate a flexible thin optical disk, a stabilizer member configured to suppress a run-out of the flexible thin optical disk by an applying aerodynamic force to the rotating flexible thin optical disk so as to stabilize the run-out of the rotating flexible thin optical disk, and a clamper movably supported in a center of the stabilizer member in a direction perpendicular to a surface of the flexible thin optical disk. In the disclosed disk clamping mechanism, the flexible thin optical disk is sandwiched between the turntable and the clamper such that the turntable and the clamper rotate the flexible thin optical member sandwiched in-between. | 03-24-2011 |
20110283299 | DISK LAMINATE, DISK CARTRIDGE, DISK LOADING/UNLOADING MECHANISM, DISK CONVEYING DEVICE, DISK CONVEYING MECHANISM, AND THIN DISK DRIVING SYSTEM - A disk laminate includes thin disks laminated to each other, which are to be suctioned and conveyed; and spacers provided between the thin disks to prevent the thin disks from directly contacting each other, the spacers having air permeability. | 11-17-2011 |
Masami Nishida, Kyoto JP
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20090231786 | CONNECTION MECHANISM AND MOBILE TERMINAL - A connection mechanism connects a first casing and a second casing so as to move between a closed state in which the casings are superimposed on each other and an open state in which the casings are open and spread out. The connection mechanism includes: opening parts formed on a connection side of the first casing and a connection side of the second casing; connection members of which both ends can be advanced into and retreated from the opening parts of the first casing and the opening parts of the second casing; and an advance/retreat ratio stabilization part for stabilizing a ratio of an advance/retreat amount of the connection member into/from the first casing to an advance/retreat amount of the connection member into/from the second casing to a predetermined value. | 09-17-2009 |
Masami Nishida, Otsu-Shi JP
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20120119194 | ORGANIC ELECTROLUMINESCENT ELEMENT - Provided is a high-luminance, long-life laminated organic electroluminescent element. The organic electroluminescent element has a composition in which a plurality of light-emitting units, including at least one organic light-emitting layer, are laminated between a positive electrode and a negative electrode, and in which a linking layer is held between the respective light-emitting units. The linking layer is formed by laminating, in succession from the positive electrode side, an electron generating/transport section, an intermediate layer, and a hole generating/transport section, which contain at least one metal selected from a group consisting of an alkali metal, alkaline earth metal, rare earth metal, alloy of these metals, and compound of these metals. Preferably the intermediate layer contains an electrical insulating non-semiconductive substance having a specific resistance which is between 1.0×10 | 05-17-2012 |