Patent application number | Description | Published |
20110104547 | BATTERY TEMPERATURE UNEVENNESS SUPPRESSING POWER SUPPLY - A power supply device is provided that includes a battery module | 05-05-2011 |
20110111273 | VEHICLE POWER SUPPLY DEVICE AND METHOD FOR PRODUCING VEHICLE POWER SUPPLY DEVICE - A power supply device includes a battery block | 05-12-2011 |
20120141855 | BATTERY PACK FOR SUPPRESSING DEVIATION OF CENTRAL BATTERY CELL AND VEHICLE INCLUDING THE SAME - A battery pack device includes a plurality of battery cells | 06-07-2012 |
20120164489 | POWER SOURCE APPARATUS EQUIPPED WITH A SERVICE PLUG AND VEHICLE CARRYING THAT POWER SOURCE APPARATUS - The power source apparatus of the present invention is provided with battery blocks | 06-28-2012 |
20130260197 | BATTERY ARRAY, BATTERY SEPARATOR, AND VEHICLE EQUIPPED WITH BATTERY ARRAY - The battery array is provided with a plurality of battery cells having a rectangular outline, insulating separators intervening between adjacent battery cells, a pair of endplates disposed at the ends of the battery cells stacked alternately with intervening separators, and binding bars that bind the endplates together. Partition plates, which are the parts of the separators sandwiched between adjacent battery cells, have thin regions established along regions opposite the upper ends of the battery cells, and the thin regions are formed thinner than partition plate regions opposite the center sections of the battery cells. | 10-03-2013 |
20130273412 | BATTERY PACK AND VEHICLE INCLUDING THE SAME - A battery pack includes battery cells, bus bars, and a wire harness. The battery cells include terminals on the upper surfaces of the battery cells. The bus bars connect the terminals of the battery cells to each other with the plurality of battery cells being arranged side by side. The wire harness is connected to the terminals. An electrically insulating separation wall is arranged between the terminal and the wire harness. | 10-17-2013 |
20140014420 | POWER SUPPLY DEVICE, POWER-SUPPLY-DEVICE SEPARATOR, AND POWER-SUPPLY-DEVICE-EQUIPPED VEHICLE AND ELECTRIC POWER STORAGE - A power supply device includes battery cells, separators, and fastening members. The plurality of battery cells have a rectangular-box exterior shape. The separators are interposed between the battery cells, which are arranged side by side. The fastening members securely hold a battery assembly of the battery cells and the separators, which are alternately arranged side by side. The surfaces of each of the battery cells is covered by an electrically insulating covering member. Each of the separators has recessed parts that form a plurality of gas-flowing paths between the battery cells so that cooling gas can flow along surfaces of these battery cells when this separator is interposed between these battery cells. Edge parts of the recessed part, which forms the gas-flowing paths, are rounded. | 01-16-2014 |
Patent application number | Description | Published |
20090111010 | Battery pack and battery pack separator - The battery pack includes plural battery cells | 04-30-2009 |
20090142628 | Battery system cooled via coolant - The battery system cooled via coolant has a battery block | 06-04-2009 |
20090142650 | Battery system - A battery system includes: a battery block defining a cooling gap between battery cells composed of a plurality of rectangular/prismatic cells; and a gas blower forcibly blowing the gas through the gap in the block. The block, set in two separate arrays, is provided therebetween with an intermediate duct connected to each of the gaps. An outer duct is provided outside the block set in two separate arrays, and the plurality of gaps are parallel-connected between the outer duct and the intermediate duct. The gas blower forcibly blows the gas from the intermediate duct to the outer duct, and the gas forcibly blown is branched from the intermediate duct to be blown through each of the gaps to cool the cells. The gas having passed through the gaps and cooled the cells is collected at and exhausted from the outer duct. | 06-04-2009 |
20090142653 | Battery system with battery cells arranged in array alignment - A battery system includes a battery block, a cooling pipe, and a coolant feeding device. The battery block includes a plurality of rectangular batteries that have a width greater than a thickness and are securely arranged in array alignment by a battery holder. The cooling pipe cools the rectangular batteries of the battery block. The coolant feeding device feeds coolant to the cooling pipe. In the battery system, the cooling pipe is arranged on the surface of the battery block in a thermally-coupled state so that the rectangular batteries are cooled by the coolant, which is circulated through the cooling pipe. | 06-04-2009 |
20100198419 | GAS TURBINE OPERATION CONTROL DEVICE AND OPERATION CONTROL METHOD - Provided is a gas turbine operation control device and operation control method that are capable of suppressing turbine inlet temperature and of satisfying the demand response for shaft output. An IGV emergency fully-open flag is activated when the output of a generator is in a high load band at or above a predetermined value, and the like. When the IGV emergency fully-open flag is activated, the degree of opening of an inlet guide vane is set to a predetermined degree of opening, a temperature adjustment setting is set by switching in accordance with the degree of opening of the inlet guide vane, and an exhaust gas temperature setting value or a blade path temperature setting value of a turbine, for controlling the fuel supply amount for a combustor, is generated based on the temperature adjustment setting. | 08-05-2010 |
20100269515 | GAS TURBINE CONTROL METHOD AND GAS TURBINE POWER GENERATING APPARATUS - An object is to reduce a fluctuation in the gas-turbine output in a nozzle switching period. In the nozzle switching period during which a first nozzle group that has been used is switched to a second nozzle group that is going to be used, the amounts of fuel supplied through the first nozzle group and the second nozzle group are adjusted by using at least one adjustment parameter registered in advance, the adjustment parameter registered in advance is updated according to the operating condition of the gas turbine, and the updated adjustment parameter is registered as an adjustment parameter to be used next. | 10-28-2010 |