Power supply device, power supply system provided with said power supply device, and separator for battery cells

The invention claimed is: 1. A power supply device comprising: a plurality of battery cells, each of which has a prismatic external form with a thickness smaller than a width of a main surface; a plurality of separators, each of which is connected to a respective battery cell of the plurality of battery cells for covering at least a portion of a surface of the respective battery cell; and a fastening member that fastens a battery stack constructed by stacking the plurality of battery cells, each of the battery cells being covered by a respective separator of the plurality of separators in a state where the main surfaces face each other, wherein each of the separators is formed from an insulating material which is elastically deformable, and each of the separators has: a main plate section that covers the main surface of the respective battery cell disposed to face the main plate section; a box-shaped covering section provided on a bottom part of the main plate section on a first surface side of the main plate section for receiving and covering a bottom surface of the respective battery cell, the box-shaped covering section having a bottom surface covering part formed along a lower edge of the main plate section to protrude toward the first surface side, a front surface covering part rising upward from a leading end of the bottom surface covering part, and side surface covering parts connecting ends of the main plate section, the bottom surface covering part, and the front surface covering part; and a corner covering section provided on a top part of the main plate section on the first surface side for covering a corner of a top surface of the respective battery cell. 2. The power supply device according to claim 1 , wherein a battery cell unit is formed by attaching each of the separators on a fixed position of the respective battery cell with the bottom surface of the respective battery cell being inserted into the box-shaped covering section of each of the respective separators and the corner of the top surface of the respective battery cell being covered by the corner covering section, and the battery stack is formed by stacking a plurality of the battery cell units. 3. The power supply device according to claim 1 , wherein each of the separators further has a side wall for defining side surfaces of the box-shaped covering section and the corner covering section on a side surface of the main plate section on the first surface side, and the side wall is formed with a cutout at an intermediate part of the side wall. 4. The power supply device according to claim 3 , wherein each of the separators is provided with a first air blowing channel, on a first surface of the main plate section, for forming an air passage between the battery cells stacked on the first surface side of the main plate section and the main plate section, and openings on both ends of the first air blowing channel communicate with the cutout. 5. The power supply device according to claim 3 , wherein each of the separators is provided with a second air blowing channel, on a second surface of the main plate section opposite to the first surface, for forming an air passage between each of the battery cells stacked on the second surface side of the main plate section and the main plate section, and openings on both ends of the second air blowing channel are formed along the side wall. 6. The power supply device according to claim 5 , wherein the main plate section is provided with an oppositely extending side wall extending toward the second surface along the cutout, and the oppositely extending side wall is formed into a shape engageable with the cutout of an adjacently disposed separator. 7. The power supply device according to claim 6 , wherein the side wall has a vertical wall along a longitudinal direction, and the oppositely extending side wall has a vertical wall along a longitudinal direction. 8. The power supply device according to claim 7 , wherein the fastening member has a pair of end plates disposed on both end faces of the battery stack and a bind bar having both ends connected to the pair of end plates, the bind bar has a side surface plate section for covering a side surface of the battery stack, the side surface plate section being formed with an air blowing opening facing an opening of the air passage, and the vertical walls formed on the side wall and the oppositely extending side wall are disposed in the air blowing opening. 9. The power supply device according to claim 8 , wherein the side wall and the oppositely extending side wall each have two rows of vertical walls on positions facing each other, the two rows of vertical walls facing each other defining a continuous longitudinal channel, the bind bar is provided with a connection bar for reinforcing the side surface plate section having the air blowing opening, the side surface plate section being formed with a plurality of the air blowing openings through the connection bar, and the connection bar is inserted into the longitudinal channel. 10. The power supply device according to claim 1 , further comprising insulating cover films, each of which partially covers a respective battery cell, each of the insulating cover films extending at least from a surface of the respective battery cell covered by the box-shaped covering section to a surface of the respective battery cell covered by the corner covering section, on the respective battery cell covered by each of the respective separators. 11. The power supply device according to claim 1 , wherein the power supply device is disposed in a horizontal position where both side surfaces of the battery stack are vertically directed. 12. A power supply system comprising a plurality of the power supply devices according to claim 1 , the power supply system comprising at least a pair of the power supply devices, each of which is disposed in a horizontal position where both side surfaces of the battery stack are vertically directed, the pair of power supply devices being disposed such that bottom surfaces of the battery stacks face each other and the top surfaces of the battery cells are horizontally directed in opposite directions. 13. A plurality of separators used for a power supply device constructed by stacking a plurality of battery cells, each of the battery cells having a prismatic external form with a thickness smaller than a width of a main surface, each respective separator of the plurality of separators for insulating a surface of a respective battery cell of the plurality of battery cells, each of the separators comprising: a main plate section that covers the main surface of the respective battery cell disposed to face the main plate section; a box-shaped covering section provided on a bottom part of the main plate section on a first surface side of the main plate section for receiving and covering a bottom surface of the respective battery cell, the box-shaped covering section having a bottom surface covering part formed along a lower edge of the main plate section to protrude toward the first surface side, a front surface covering part rising upward from a leading end of the bottom surface covering part, and side surface covering parts connecting ends of the main plate section, the bottom surface covering part, and the front surface covering part; and a corner covering section provided on a top part of the main plate section on the first surface side for covering a corner of a top surface of the respective battery cell, wherein each of the separators is formed from an insulating material which is elastically deformable.