Hiroaki Ohta
Hiroaki Ohta, Utsunomiya-Shi JP
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20080292941 | FUEL CELL - An oxygen-containing gas supply passage and an oxygen-containing gas discharge passage extend through a set of diagonal positions of a first metal separator, and a fuel gas supply passage and a fuel gas discharge passage extend through the other set of diagonal positions of the first metal separator. A fuel gas flow field is connected to the fuel gas supply passage through an inlet buffer at an upper position, and connected to the fuel gas discharge passage through an outlet buffer at a lower position. The inlet buffer includes a first inlet buffer area adjacent to the fuel gas supply passage and a second inlet buffer area adjacent to the fuel gas flow field. Grooves of the first inlet buffer area are deeper than grooves of the second inlet buffer area in the stacking direction. | 11-27-2008 |
20110274999 | FUEL CELL STACK - A fuel cell stack is comprised of a plurality of power generating units which are stacked along the horizontal direction. A corrugated passage groove having a shape corresponding to the shape of the underside surface of a corrugated passage groove of a first fuel gas passage is formed in a surface of a first metal separator. A corrugated passage groove having a shape corresponding to the shape of the underside surface of a corrugated passage groove of a second oxidant gas passage is formed in a surface of a third metal separator. The corrugated passage grooves overlap one another to define a refrigerant passage. An oxidant gas inlet port and a fuel gas inlet port are provided in the upper portion of the power generating unit, and an oxidant gas outlet port and a fuel gas outlet port are provided in the lower portion of the power generating unit. A refrigerant inlet port and a refrigerant outlet port are formed in each of the left and right portions of the power generating unit. | 11-10-2011 |
20110287331 | METHOD OF STARTING OPERATION OF SOLID POLYMER ELECTROLYTE FUEL CELL - A method of starting operation of a fuel cell stack includes the steps of performing gas replacement by supplying a fuel gas to a fuel gas flow field from a downstream side of the fuel gas flow field through a fuel gas discharge passage, and supplying an oxygen-containing gas to an oxygen-containing gas flow field from an upstream side of the oxygen-containing gas flow field through an oxygen-containing gas supply passage. After the step of performing gas replacement, normal power generation is carried out by supplying the fuel gas to the fuel gas flow field from an upstream side of the fuel gas flow field through a fuel gas supply passage, and supplying the oxygen-containing gas to the oxygen-containing gas flow field from the upstream side of the oxygen-containing gas flow field through the oxygen-containing gas supply passage. | 11-24-2011 |
Hiroaki Ohta, Kyoto-Shi JP
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20080230766 | Light emitting device - A light emitting element includes a group III nitride semiconductor substrate that emits a light by absorbing a UV ray and a light emitting diode structure. The light emitting diode structure is formed of a group III nitride semiconductor grown on the group III nitride semiconductor substrate, and has a p-type layer, an active layer that emits a light having a wavelength in the UV region, and an n-type layer. It is preferable that the group III nitride semiconductor substrate has a principal plane of a non-polar plane or a semi-polar plane and the group III nitride semiconductor having a same plane orientation as that of the principal plane is grown on the principal plane. | 09-25-2008 |
20080232416 | Light emitting device - A light emitting device includes a nitride semiconductor light emitting element provided with a group III nitride semiconductor laminating structure and a laser. The group III nitride semiconductor laminating structure has a non-polar plane or a semi-polar plane as a principal plane for crystal growth and includes a multiple-quantum well layer having a quantum well layer as an emission layer containing In and a barrier layer having a wider band gap than that of the quantum well layer. The laser generates induced emission light having a wavelength shorter than an emission wavelength of the quantum well layer and optically excites the quantum well layer in the nitride semiconductor light emitting element with the induced emission light. | 09-25-2008 |
Hiroaki Ohta, Wako JP
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20110300465 | FUEL CELL STACK - A fuel cell stack includes power generation devices each including membrane electrode assemblies and corrugated separators. A coolant channel is provided between the power generation devices. A first-end corrugated separator has a first protrusion that protrudes between recesses of the coolant channel in a direction away from one of adjacent membrane electrode assemblies of the membrane electrode assemblies. The first-end corrugated separator is disposed at a first end of each of the power generation devices in a stacking direction. A second-end corrugated separator has a second protrusion that protrudes between recesses of the coolant channel in a direction away from another of the adjacent membrane electrode assemblies. The second-end corrugated separator is disposed at a second end of each of the power generation devices in the stacking direction. The first protrusion and the second protrusion are disposed to be superposed with each other in the stacking direction. | 12-08-2011 |
20140212785 | FUEL CELL STACK - A fuel cell stack includes a stacked body, insulators, end plates, heat insulating members, and terminal plates. In the stacked body, a plurality of power generation cells are stacked in a stacking direction. Each of the plurality of power generation cells includes a separator and an electrolyte electrode assembly which includes an electrolyte and a pair of electrodes sandwiching the electrolyte therebetween. The stacked body has a first end portion and a second end portion opposite to the first end portion in the stacking direction. The insulators are provided at the first end portion and the second end portion of the stacked body, respectively. Each of the insulators has a recessed portion that faces toward the stacked body. The end plates are provided on the insulators, respectively. The heat insulating members are each provided in the recessed portion. The terminal plates are each provided in the recessed portion. | 07-31-2014 |
Hiroaki Ohta, Lida-Shi JP
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20120325636 | POWER WINDOW SWITCH - A power window switch has a case, a substrate disposed in the case, a window operation knob disposed on the case, a window lock button disposed on a front side of the window operation knob on the case, a window operation switch mechanism disposed in the case and activated in accordance with an operation of the window operation knob, a window lock switch mechanism disposed in the case and activated in accordance with an operation of the window lock button, and a connector having a terminal with a first terminal end protruding from the case and a second terminal end connected to the substrate. The window lock switch mechanism includes two conductive plate springs, and a pressing unit for pressing the plate springs. | 12-27-2012 |