Liquid-injection-type air battery, liquid-injection-type air battery pack, and method for using liquid-injection-type air battery or liquid-injection-type air battery pack

The invention claimed is: 1. A liquid activated air battery, comprising: a housing having an interior comprising an electrode assembly holding portion and an electrode assembly absent portion; and an electrode assembly comprising a cathode and an anode, the electrode assembly disposed within the electrode assembly holding portion of the housing, wherein the electrode assembly absent portion is configured to serve as a liquid container to store a liquid component of an electrolyte of the air battery before the liquid component of the electrolyte is supplied to the electrode assembly, and wherein the electrode assembly absent portion is configured to serve as a gas flowing member though which oxygen-containing gas of an active material of the air battery flows after liquid component of the electrolyte is supplied to the electrode assembly. 2. The liquid activated air battery according to claim 1 , further comprising a liquid-tight/gas-permeable member placed on a surface of the cathode, the liquid-tight/gas permeable member separating the interior of the housing into the electrode assembly holding portion and the electrode assembly absent portion. 3. The liquid activated air battery according to claim 2 , wherein the liquid-tight/gas-permeable member is made of water-repellent porous resin. 4. The liquid activated air battery according to claim 3 , wherein the water-repellant porous resin contains at least one of polyolefin or fluororesin. 5. The liquid activated air battery according to claim 1 , further comprising: a liquid supply controller configured to supply the electrode assembly with the liquid component of the electrolyte stored in the electrode assembly absent portion; and an oxygen-containing gas supply controller configured to supply an oxygen-containing gas when an amount of the liquid component of the electrolyte in the electrode assembly absent portion reaches a predetermined level. 6. The liquid activated air battery according to claim 1 , wherein the liquid component of the electrolyte is a liquid electrolyte. 7. The liquid activated air battery according to claim 1 , wherein the liquid component of the electrolyte contains water. 8. The liquid activated air battery according to claim 1 , wherein the anode contains an anode active material comprising a simple substance or alloy of a base metal that has a normal electrode potential lower than a normal electrode potential of hydrogen. 9. The liquid activated air battery according to claim 8 , wherein the simple substance or alloy of the base metal contains at least one element selected from the group consisting of zinc, iron, aluminum, magnesium, manganese, silicon, titanium, chromium and vanadium. 10. The liquid activated air battery according to claim 1 , wherein the liquid component is a solvent, and the electrolyte of the air battery further comprises an electrolytic salt component, the electrolytic salt component being placed inside at least one of the housing or the liquid supply controller. 11. An assembled liquid activated air battery, comprising a plurality of the liquid activated air battery according to claim 1 . 12. A liquid activated air battery comprising: a housing; a liquid-tight/gas-permeable member placed inside the housing such that the liquid-tight/gas permeable member partitions at least a part of an inside of the housing into an electrode assembly holding portion and an electrode assembly absent portion; an electrode assembly comprising a cathode and an anode, the electrode assembly placed in the electrode assembly holding portion; a liquid supply controller provided in the housing, the liquid supply controller configured to inject a liquid component of an electrolyte of the air battery into the electrode assembly; and an oxygen-containing gas supply controller provided in the housing, the oxygen-containing gas supply controller configured to control a supply of an oxygen-containing gas from an outside of the housing to the electrode assembly absent portion, wherein before the liquid component is injected into the electrode assembly by the liquid supply controller, the electrode assembly absent portion serves as a liquid container to store the liquid component of the electrolyte of the air battery, and wherein after the liquid component is injected into the electrode assembly by the liquid supply controller, the electrode assembly absent portion serves as a gas flowing member through which the oxygen-containing gas flows. 13. The liquid activated air battery according to claim 12 , wherein the liquid component of the electrolyte is a solvent, and the electrolyte of the air battery further comprises an electrolytic salt component, the electrolytic salt component being placed inside at least one of the housing or the liquid supply controller. 14. The liquid activated air battery according to claim 12 , wherein the liquid-tight/gas-permeable member is made of water-repellent porous resin. 15. The liquid activated air battery according to claim 14 , wherein the water-repellant porous resin contains at least one of polyolefin or fluororesin. 16. The liquid activated air battery according to claim 12 , wherein the anode contains an anode active material comprising a simple substance or alloy of a base metal that has a normal electrode potential lower than a normal electrode potential of hydrogen. 17. The liquid activated air battery according to claim 16 , wherein the simple substance or alloy of the base metal contains at least one element selected from the group consisting of zinc, iron, aluminum, magnesium, manganese, silicon, titanium, chromium and vanadium. 18. An assembled liquid activated air battery, comprising a plurality of the liquid activated air battery according to claim 12 . 19. A method of using the liquid activated air battery according to claim 1 , comprising the steps of: storing the liquid component of the electrolyte of the air battery in the electrode assembly absent portion; supplying the electrode assembly with the liquid component of the electrolyte of the air battery from the electrode assembly absent portion; and thereafter supplying the electrode assembly absent portion with oxygen-containing gas when the amount of the liquid component of the electrolyte in the electrode assembly absent portion reaches a predetermined level. 20. The method of using the liquid activated air battery according to claim 19 , further comprising discharging a remainder of the liquid component in the electrode assembly absent portion.