Abstract:
A vehicle has a motor serving as a driving source for running the vehicle, a high-power assembled battery and a high-capacity assembled battery each capable of supplying an electric power to the motor, and a temperature adjusting mechanism adjusting the temperature of each of the high-power assembled battery and the high-capacity assembled battery. The temperature adjusting mechanism supplies a heat exchange medium for use in the temperature adjustment of the high-power assembled battery and the high-capacity assembled battery to each of the assembled batteries. The high-power assembled battery is capable of charge and discharge with a current relatively larger than that in the high-capacity assembled battery. The high-capacity assembled battery has an energy capacity relatively larger than that of the high-power assembled battery, has a higher dependence of battery characteristic on temperature than that of the high-power assembled battery, and is placed on a flow path of the heat exchange medium upstream of the high-power assembled battery.
Abstract:
A vehicle has a motor and an engine each serving as a driving source for running the vehicle, and assembled batteries each capable of supplying an electric power to the motor. The assembled batteries include a high-power assembled battery and a high-capacity assembled battery. The high-power assembled battery is capable of charge and discharge with current relatively larger than that in the high-capacity assembled battery, and the high-capacity assembled battery has energy capacity relatively larger than that of the high-power assembled battery. In running of the vehicle using output from the motor with the engine stopped, the high-capacity assembled battery supplies more electric power to the motor than that in the high-power assembled battery. The high-power assembled battery is placed in a vehicle-inside space accommodating a passenger or baggage, and the high-capacity assembled battery is placed in a vehicle-outside space located on an outer face of a vehicle body.
Abstract:
A battery module has a first power generating element (20) and a second power generating element (20) that are electrically connected in series to perform charging and discharging, a case (10) that houses the first power generating element and the second power generating element in a sealed state, a positive electrode terminal (52) that is electrically connected to a positive electrode of the first power generating element, a negative electrode terminal (53) that is electrically connected to a negative terminal of the second power generating element, and a valve (12d) that releases a gas generated in the case to the outside. The positive electrode terminal, the negative electrode terminal, and the case are provided in an installation area of the case that faces a specified direction, and the positive electrode terminal and the negative electrode terminal are disposed in one end side of the installation area while the valve is disposed in the other end side of the installation area.
Abstract:
A thermal transfer sheet comprising: a substrate; a heat resistant slip layer provided on one side of the substrate; an undercoat layer and a dye layer provided in that order on the other side of the substrate, wherein the undercoat layer is formed by using colloidal inorganic pigment ultrafine particles and a copolymer resin of vinyl pyrrolidone and vinyl acetate as main components.
Abstract:
When a character is lent from a first game device to a second game device, clocks of those two game devices are synchronized, a shared lending/borrowing expiration time is set, the use of the character is temporarily disabled in the first game device, and the use of the character is temporarily enabled in the second game device. Then, a character return timing is determined, based on a time of the clock and the lending/borrowing expiration time, in the respective game devices. In accordance with the determined timing, the use of the character is enabled in the first game device, and the use of the character is disabled in the second game device. Thus, it is possible to lend/borrow a character as an item in the real world without generating a copy thereof, and the lent character is sure to be returned at the expiration of a predetermined lending/borrowing period.
Abstract:
[PROBLEMS] It is an object to improve the workability in replacing a power storage stack.[SOLVING MEANS] A plug apparatus has a first holding portion 81 holding a stack connecting conductive wire 54, a second holding portion 82 separated from the first holding portion 81 and holding a stack connecting conductive wire 55, and a fixing portion 70 to which the first and second holding portions 81 and 82 are removably fixed, wherein the first and second holding portions 81 and 82 are fixed to the fixing portion 70 and the stack connecting conductive wires 54 and 55 are electrically connected to each other in a first state in which a plug grip 60 is mounted, and the first and second holding portions 81 and 82 are allowed to separate from the fixing portion 70 and the electrical connection between the stack connecting conductive wires 54 and 55 is broken in a second state in which the plug grip 60 is dismounted.
Abstract:
An information reading system comprising an information processing apparatus, a first information reading apparatus which is connected to the information processing apparatus and reads information on a sheet and a second information reading apparatus which is connectable to one of the information processing apparatus and the first information reading apparatus, and reads information on a sheet. The information processing apparatus comprises a control program including a first driver required to control the first information reading apparatus, and a second driver required to control the second information reading apparatus. Control information from the information processing apparatus to the second information reading apparatus is transmitted via the first driver and the second driver.
Abstract:
A vehicle includes a motor serving as a driving source for running the vehicle, and a high-power assembled battery and a high-capacity assembled battery each capable of supplying an electric power to the motor and placed in a luggage space. The high-power assembled battery is capable of charge and discharge with a current relatively larger than that in the high-capacity assembled battery. The high-capacity assembled battery has an energy capacity relatively larger than that of the high-power assembled battery and has a higher dependence of battery characteristic on temperature than that of the high-power assembled battery. The high-capacity assembled battery is placed over the high-power assembled battery in the vehicle.
Abstract:
A power storage device includes a plurality of power storage elements (10) lined up along a predetermined arrangement direction; a dividing member (40) that is made of insulating material and arranged between two adjacent power storage elements; a pair of end plates (31) that sandwich the plurality of power storage elements, and apply restraining force thereto, in the arrangement direction; and a metal connecting member (32) that extends in the arrangement direction and is fixed to the pair of end plates. The dividing member includes a retaining portion (42) that is positioned between the power storage elements and the connecting member, and that retains the connecting member.
Abstract:
A vehicle has a motor serving as a driving source for running the vehicle, a high-power assembled battery and a high-capacity assembled battery each capable of supplying an electric power to the motor, and a temperature adjusting mechanism adjusting the temperature of each of the high-power assembled battery and the high-capacity assembled battery. The temperature adjusting mechanism supplies a heat exchange medium for use in the temperature adjustment of the high-power assembled battery and the high-capacity assembled battery to each of the assembled batteries. The high-power assembled battery is capable of charge and discharge with a current relatively larger than that in the high-capacity assembled battery. The high-capacity assembled battery has an energy capacity relatively larger than that of the high-power assembled battery, has a higher dependence of battery characteristic on temperature than that of the high-power assembled battery, and is placed on a flow path of the heat exchange medium upstream of the high-power assembled battery.