Patent application number | Description | Published |
20090248204 | Cooling system and control method of cooling system - The position of a damper is changed over to switch over the cooling mode between an inside air intake mode and an A/C intake mode. In the inside air intake mode, the air inside a passenger compartment of a motor vehicle is taken in and directly blown to a battery by the operation of a battery blower fan. In the A/C intake mode, the air cooled down by an air conditioner (evaporator) is taken in and blown to the battery by the operation of the battery blower fan. When the detected vehicle speed V is not lower than a preset reference speed Vref, the position of the damper is immediately changed over (steps S | 10-01-2009 |
20100231035 | POWER SUPPLY APPARATUS - A power supply apparatus includes a storage battery and a DC/DC converter, and formed such that cooling air having cooled the storage battery cools the DC/DC converter. The power supply apparatus is formed to extend to the periphery of a cabin, and includes a long air outlet duct for letting out part of the cooling air having cooled the DC/DC converter to the periphery; and a short air outlet duct that is formed to have a shorter air outlet route than the long air outlet duct has and that is for letting out part of the cooling air having cooled the DC/DC converter to the cabin. | 09-16-2010 |
20110045345 | POWER SOURCE APPARATUS AND METHOD OF MANUFACTURING POWER SOURCE APPARATUS - A power source apparatus includes a case | 02-24-2011 |
20120264001 | ELECTRODE STRUCTURE AND BATTERY DEVICE MANUFACTURING METHOD - An electrode is provided with a metal terminal extending from a battery module main body, a bolt which has an expanded section configuring a retaining section at a rear end portion and penetrates the metal terminal upward, and an insulating body which insulates the metal terminal and the battery module case one from the other. The insulating body is provided with a drop preventing section which abuts at least a lower surface of the expanded section of the bolt and prevents the bolt from dropping from the metal terminal. | 10-18-2012 |
20120264003 | ELECTRODE STRUCTURE AND BATTERY DEVICE MANUFACTURING METHOD - An electrode is provided with a metal terminal extending from a battery module main body, a bolt which has an expanded section configuring a retaining section at a rear end portion and penetrates the metal terminal upward, and an insulating body which insulates the metal terminal and the battery module case one from the other. The insulating body is provided with a drop preventing section which abuts at least a lower surface of the expanded section of the bolt and prevents the bolt from dropping from the metal terminal. | 10-18-2012 |
20120264004 | ELECTRODE STRUCTURE AND BATTERY DEVICE MANUFACTURING METHOD - An electrode is provided with a metal terminal extending from a battery module main body, a bolt which has an expanded section configuring a retaining section at a rear end portion and penetrates the metal terminal upward, and an insulating body which insulates the metal terminal and the battery module case one from the other. The insulating body is provided with a drop preventing section which abuts at least a lower surface of the expanded section of the bolt and prevents the bolt from dropping from the metal terminal. | 10-18-2012 |
20120264006 | ELECTRODE STRUCTURE AND BATTERY DEVICE MANUFACTURING METHOD - An electrode is provided with a metal terminal extending from a battery module main body, a bolt which has an expanded section configuring a retaining section at a rear end portion and penetrates the metal terminal upward, and an insulating body which insulates the metal terminal and the battery module case one from the other. The insulating body is provided with a drop preventing section which abuts at least a lower surface of the expanded section of the bolt and prevents the bolt from dropping from the metal terminal. | 10-18-2012 |
20130196533 | ELECTRIC CABLE CONNECTING CONSTRUCTION AND ELECTRIC CABLE CONNECTING METHOD - Attaching work of a high-voltage cable is improved. In an electric cable connecting construction of battery packs, the high-voltage cable is connected to conductors held in resin busbar modules for connection with the general electrodes by fastening crimp terminals to the conductors. Two ribs are formed on each of the busbar modules where the crimp terminal is held therebetween to limit an entrained rotation of the crimp terminal. A difference between a gap of the two ribs on one of the adjacent battery packs and a width of the crimp terminal connected to the general electrode is set to a first gap dimension L | 08-01-2013 |