Battery pack production method

The invention claimed is: 1. A battery pack production method for producing a battery pack in which a plurality of unit cells are stacked with a filling member interposed therebetween to form a stack of the unit cells that are electrically connected, the battery pack production method comprising: a measuring step of measuring thicknesses of the unit cells; an arrangement step of arranging the filling member having a viscosity between adjacent ones of the unit cells in a stacking direction; and a pressurization step of pressurizing the filling member arranged between the unit cells in a viscous state in the stacking direction of the unit cells to reduce a thickness of the filling member in the stacking direction, wherein the thickness of the filling member is controlled based on a measured thickness of each of the unit cells in the stacking direction after stacking according to at least one of: an amount of the filling member arranged in the arrangement step; a length of time during which the filling member is pressurized in the pressurization step; and a force pressurizing the filling member in the pressurization step; and a distance between stacking-direction centers of two adjacent ones of the unit cells in the stacking direction is kept within a constant range. 2. The battery pack production method according to claim 1 , wherein the unit cells have terminals to input and output electric power, and busbars electrically connecting the terminals together; and the method further comprising connecting the terminals and the busbars after the unit cells are stacked. 3. The battery pack production method according to claim 1 , the method further comprising keeping the amount of the filling member constant, and controlling the length of time of the pressurizing of the filling member arranged between the adjacent unit cells. 4. The battery pack production method according to claim 1 , the method further comprising keeping the amount of the filling member constant, and controlling a magnitude of force of the pressurizing of the filling member arranged between the adjacent unit cells. 5. The battery pack production method according to claim 1 , the method further comprising keeping a magnitude of force of the pressurizing of the filling member constant, and controlling the amount of the filling member arranged between the adjacent unit cells. 6. The battery pack production method according to claim 1 , wherein the pressurization step includes pushing the stack of the unit cells with a press that is able to move in the stacking direction, securing a stacking-direction position of the press in the stacking direction at a pre-established position, and then releasing the pressurization in the stacking direction. 7. The battery pack production method according to claim 1 , wherein the thickness of the filling member is controlled for each predetermined number of the unit cells stacked. 8. The battery pack production method according to claim 1 , wherein the filling member is arranged between the adjacent unit cells after stacking each for predetermined number of the unit cells stacked. 9. The battery pack production method according to claim 1 , wherein the filling member is disposed between the adjacent unit cells in an area overlapping in the stacking direction with a power generation element provided in each of the unit cells. 10. The battery pack production method according to claim 1 , wherein the filling member includes an elastic adhesive having elastic force after curing. 11. The battery pack production method according to claim 1 , wherein the unit cells are provided with covering members that insulate and cover power generation elements.