1. Field of the Invention
The present invention relates to battery frames used when stacking flat cells to form a battery, and a battery in which the frames are used.
2. Description of the Related Art
A plurality of single cells is combined in series or parallel to form a battery or a module battery with high power and capacity. For example, it is known that a plurality of flat single cells, each having an electric-power generating element covered with laminate films, is connected to each other in series or parallel to form a battery with high power and capacity (see Japanese Patent Laid-Open Publication No. 2001-256939). A flat single cell in which an electric-power generating element is covered with laminate films is called a laminate cell.
Where a battery is formed using laminate cells of this kind, a plurality of laminate cells is located on the same plane, a plurality of sets of these laminate cells on the same plane is further stacked, and then these laminate cells are connected to each other in series or parallel. By stacking the laminate cells like this, a battery with higher power and capacity can be formed.
When assembling this stack-type battery, locating and stacking laminate cells one by one results in poor workability. Therefore, laminate cells are located on a plate-like frame and a plurality of frames where the cells are located is stacked, thus improving workability in assembling a stack-type battery.
Further, in order to electrically connect the cells located on neighboring frames in the stacking direction, washers made of a conductive material (conductive washers) may be incorporated in the frames at positions where electrode tabs of the laminate cells lie. To electrically insulate cells, washers made of insulating material (insulating washers) may be incorporated in the frames. When electrically connecting or insulating the laminate cells located on neighboring frames in the stacking direction, the frames, where the laminate cells are mounted, are stacked and the frames or washers are pressed from the top and bottom of the stack. This ensures that the electrode tabs and the washers come into contact with to each other, enabling the neighboring cells to be electrically connected or insulated from each other.