Method of manufacturing battery

The invention claimed is: 1. A method of manufacturing a battery, comprising the steps of: A) preparing a battery case in which an electrode assembly is enclosed; B) depressurizing an interior of the battery case; C) filling an electrolyte solution and the leakage testing gas into the battery case depressurized in step B; and D) sealing the battery case containing the electrolyte solution and the leakage testing gas filled in step C, after step A and before step B, the step of provisionally filling a leakage testing gas in the battery case by depressurizing the interior of the battery case prepared in step A to a pressure lower than the atmospheric pressure and filling the leakage testing gas into the depressurized battery case. 2. The method according to claim 1 , wherein, in step C, the electrolyte solution is filled into the battery case depressurized in step B while an atmosphere of the leakage testing gas is provided outside the battery case. 3. The method according to claim 1 , wherein step A further comprising a cell drying step of drying an interior of the battery case in which the electrode assembly is enclosed. 4. The method according to claim 1 , wherein at least the step B and the step C are performed while the battery case is placed in a hermetic container having hermeticity. 5. The method according to claim 4 , wherein: step B further comprises the step of depressurizing the hermetic container by placing a pot containing the electrolyte solution so as to allow the pot to communicate with a filling port of the battery case and opening the pot above a surface level of the electrolyte solution; and in step C, the interior of the hermetic container is filled with the leakage testing gas atmosphere. 6. The method according to claim 1 , wherein the electrolyte solution is a non-aqueous electrolyte solution. 7. The method according to claim 1 , wherein in the step of provisionally filling, the battery case prepared in step A is depressurized to a pressure lower than a vapor pressure of the electrolyte solution. 8. The method according to claim 1 , wherein in step C, the leakage testing gas is pressurized to fill the leakage testing gas into the battery case. 9. The method according to claim 1 , further comprising: after step C and before step D, the step of refilling the leakage testing gas by depressurizing the interior of the battery case and filling the leakage testing gas into the depressurized battery case. 10. The method according to claim 9 , wherein, after step C, the battery case is set aside for at least 3 minutes before depressurizing the interior of the battery case in the step of refilling. 11. The method according to claim 9 , wherein: after step C and before step D, in the step of refilling, the leakage testing gas is pressurized when being filled into the battery case. 12. The method according to claim 1 , wherein the leakage testing gas is helium gas. 13. The method according to claim 1 , further comprising: E) checking whether or not the leakage testing gas leaks out of the battery case sealed in step D. 14. A battery leakage testing method comprising the steps of: A) preparing a battery case in which an electrode assembly is enclosed; B) depressurizing an interior of the battery case; C) filling an electrolyte solution and the leakage testing gas into the battery case depressurized in the step B; D) sealing the battery case containing the electrolyte solution and the leakage testing gas filled in step C; and E) checking whether or not the leakage testing gas leaks out of the battery case sealed in the step D, after step A and before step B, the step of provisionally filling the leakage testing gas in the battery case by depressurizing the interior of the battery case prepared in step A to a pressure lower than the atmospheric pressure and filling the leakage testing gas into the depressurized battery case. 15. A method of manufacturing a battery, comprising the steps of: A) preparing a battery case in which an electrode assembly is enclosed; B) depressurizing an interior of the battery case prepared in step A; C) filling an electrolyte solution and a leakage testing gas into the battery case depressurized in step B; and D) sealing the battery case containing the electrolyte solution and the leakage testing gas filled in step C, wherein at least the step B and the step C are performed while the battery case is placed in a hermetic container having hermeticity, step B further comprises the step of depressurizing the hermetic container by placing a pot containing the electrolyte solution so as to allow the pot to communicate with a filling port of the battery case and opening the pot above a surface level of the electrolyte solution; and in step C, the interior of the hermetic container is filled with the leakage testing gas atmosphere. 16. A method of manufacturing a battery, comprising the steps of: A) preparing a battery case in which an electrode assembly is enclosed; B) depressurizing an interior of the battery case prepared in step A; C) filling an electrolyte solution and a leakage testing gas into the battery case depressurized in step B; and D) sealing the battery case containing the electrolyte solution and the leakage testing gas filled in step C, wherein, after step C and before step D, the step of refilling the leakage testing gas by depressurizing the interior of the battery case and filling the leakage testing gas into the depressurized battery case. 17. The method of manufacturing a battery according to claim 16 , wherein, after step C, the battery case is set aside for at least 3 minutes before depressurizing the interior of the battery case in the step of refilling. 18. The method according to claim 16 , wherein, after step C and before step D, in the step of refilling, the leakage testing gas is pressurized when being filled into the battery case.