Battery pack comprising fire extinguishing agent

What is claimed is: 1. A battery pack comprising: an electrode assembly having a cathode, an anode, and a separator interposed therebetween; a first pack case with the electrode assembly and an electrolyte disposed therein, the first pack case having a first open end defining a first opening; a second pack case surrounding the first pack case such that the first pack case is disposed within the second pack case and a portion of an interior surface of the second pack case is spaced apart from an exterior surface of the first pack case, so as to define a cavity between the exterior surface of the first pack case and the interior surface of the second pack case, the cavity extending to a second opening at a second open end of the second pack case, the second open end having an annular shape positioned about the first open end; a fire extinguishing agent disposed throughout the cavity; a cap assembly coupled to the first and second pack cases to simultaneously seal the first opening of the first pack case and the second opening of the second pack case, so as to seal the electrode assembly and the electrolyte within the first pack case and seal the fire extinguishing agent within the second pack case; and a first venting portion formed on the exterior surface of the first pack case as a groove having a thickness less than a thickness of other portions of the first pack case, wherein the first venting portion is configured to open to enable the fire extinguishing agent disposed throughout the cavity to flow into an interior of the first pack case when a pressure within the first pack case is equal to or greater than a critical pressure. 2. The battery pack according to claim 1 , wherein the fire extinguishing agent is a liquid perfluoroketone which vaporizes at a fixed temperature. 3. The battery pack according to claim 1 , wherein the volume of the cavity between the exterior surface of the first pack case and the interior surface of the second pack case is about 0.1% to about 10% of the volume of the second pack case. 4. The battery pack according to claim 1 , wherein the first venting portion is configured to open when the temperature of the battery pack is equal to or greater than a range of about 80 to about 100 degrees Celsius. 5. The battery pack according to claim 1 , wherein the cap assembly includes a second venting portion, configured to open to discharge the gas disposed within the first pack case when the pressure within the first pack case is equal to or greater than a critical pressure. 6. The battery pack according to claim 5 , wherein the second venting portion is isolated from the cavity between the exterior surface of the first pack case and the interior surface of the second pack case. 7. The battery pack according to claim 1 , wherein the first venting portion has a slit structure formed on an exterior surface portion of the first pack case. 8. The battery pack according to claim 7 , wherein the slit structure has a discontinuous curve structure. 9. The battery pack according to claim 1 , wherein the first pack case and the second pack case are formed from a metal in a cylindrical shape. 10. The battery pack according to claim 1 , wherein the first pack case and the second pack case have similar shapes to one another. 11. The battery pack according to claim 10 , wherein the first pack case and the second pack case each have a cylindrical shape or a hexahedral shape. 12. A battery pack case for accommodating an electrode assembly having a cathode, an anode and a separator interposed therebetween, comprising: a first pack case with the electrode assembly and an electrolyte disposed therein, the first pack case having a first open end defining a first opening; a second pack case receiving the first pack case within the second pack case such that at least a portion of an interior surface of the second pack case surrounds and is spaced apart from an exterior surface of the first pack case, so as to define a cavity between the first pack case and the second pack case, the cavity extending to a second opening at a second open end of the second pack case, the second open end having an annular shape positioned about the first open end, the cavity receiving a fire extinguishing agent disposed throughout the cavity up to the second open end; a cap assembly coupled to the first and second pack cases to simultaneously seal the first opening of the first pack case and the second opening of the second pack case, so as to seal the electrode assembly and the electrolyte within the first pack case and seal the fire extinguishing agent within the second pack case; and a first venting portion formed on the exterior surface of the first pack case as a groove having a thickness less than a thickness of other portions of the first pack case, wherein the first venting portion is configured to open to enable the fire extinguishing agent disposed throughout the cavity to flow into an interior of the first pack case when a pressure within the first pack case is equal to or greater than a critical pressure. 13. The battery pack case according to claim 12 , wherein the fire extinguishing agent is a liquid perfluoroketone which vaporizes at a fixed temperature. 14. The battery pack case according to claim 12 , wherein the volume of the cavity between the exterior surface of the first pack case and the interior surface of the second pack case is about 0.1% to about 10% of the volume of the second pack case. 15. The battery pack case according to claim 12 , wherein the first venting portion opens when the temperature of the battery pack is equal to or greater than a range of about 80 to about 100 degrees Celsius. 16. A battery pack case for accommodating an electrode assembly having a cathode, an anode, and a separator interposed therebetween, the battery pack case comprising: a first pack case with the electrode assembly and an electrolyte disposed therein, the first pack case having a first open end defining a first opening; a second pack case receiving the first pack case within the second pack case such that at least a portion of an interior surface of the second pack case surrounds and is spaced apart from an exterior surface of the first pack case, so as to define a cavity between the exterior surface of the first pack case and the interior surface of the second pack case, the cavity extending to a second opening at a second open end of the second pack case, the second open end having an annular shape positioned about the first open end; a fire extinguishing agent disposed throughout the cavity; a cap assembly coupled to the first and second pack cases to simultaneously seal the first opening of the first pack case and the second opening of the second pack case, so as to seal the electrode assembly and the electrolyte within the first pack case and seal the fire extinguishing agent within the second pack case; a first venting portion formed on the exterior surface of the first pack case as a groove having a thickness less than a thickness of other portions of the first pack case; and a second venting portion formed in a portion of the cap assembly that seals the opening of the first pack case, wherein, when a pressure within the first pack case is equal to or greater than a critical pressure, the first venting portion and the second venting portion are configured to open to enable a gas within an interior of the first pack case to be discharged to an exterior of the battery pack case via the second venting portion and to enable the fire extinguishing agent within the cavity to flow into the interior