Liquid activated air battery

The invention claimed is: 1. A liquid activated air battery, comprising: an electrode assembly that comprises an air electrode and a metal anode; a battery container configured to hold the electrode assembly and an electrolytic solution within the electrode assembly; a supply tank positioned on one end of the battery container and configured to supply fresh electrolytic solution to the battery container; a drainage tank positioned on another end of the battery container and configured to receive the electrolytic solution that is discharged from the battery container, wherein the supply tank has an exterior wall with first bellows that are expanded to a volume of the fresh electrolytic solution and the drainage tank has an exterior wall with second bellows that are contracted prior to receiving the electrolytic solution from the battery container; and an actuator on the supply tank only that pushes an end wall of the supply tank toward the battery container to shrink the supply tank as the supply of the fresh electrolytic solution is fed to the battery container so that the battery container is always supplied with fresh electrolytic solution having a constant composition, the exterior wall of the drainage tank expanding and an end wall of the discharge tank moving away from the battery container as the electrolytic solution from the battery is received by the drainage tank, such that the first bellows of the exterior wall of the supply tank are contracted and the second bellows of the exterior wall of the discharge tank are expanded when the battery container has received all of the fresh electrolytic solution from the supply tank. 2. The liquid activated air battery according to claim 1 , further comprising: a check valve that allows flow in a direction from the supply tank to the drainage tank, wherein the check valve is disposed at least between the supply tank and the battery. 3. The liquid activated air battery according to claim 1 , further comprising: a controller that controls supply of the electrolytic solution to the battery container according to a status parameter of the electrode assembly and/or the electrolytic solution during discharge. 4. The liquid activated air battery according to claim 3 , wherein the status parameter is discharge current of the electrode assembly. 5. The liquid activated air battery according to claim 3 , wherein the status parameter is at least one of internal resistance of the electrode assembly and resistance of the electrolytic solution discharged from the battery container. 6. The liquid activated air battery according to claim 3 , wherein the status parameter is density of the electrolytic solution discharged from the battery container. 7. The liquid activated air battery according to claim 1 , wherein the electrode assembly further comprises a separator between the air electrode and the metal anode, the separator extending in a direction between the supply tank and the drainage tank, the first bellows and second bellows shrinking and expanding along the direction in which the separator extends. 8. The liquid activated air battery according to claim 1 , wherein the supply tank and the drainage tank are in direct contact with opposing sides of the battery container. 9. The liquid activated air battery according to claim 8 , wherein the supply tank has a movable exterior wall opposite the battery container and the drainage tank has a movable exterior wall opposite the battery container. 10. The liquid activated air battery according to claim 1 , wherein the electrolytic solution flows in a linear direction in the electrode assembly and the first bellows of the supply tank shrink and the second bellows of the discharge tank expand in the linear direction.