Secondary battery and method for manufacturing the same

What is claimed is: 1. A secondary battery, the secondary battery comprising: an electrode assembly having a cathode plate and an anode plate arranged with a separator being interposed therebetween; a battery case having an upper can and a lower sealing member, the upper can being a single, continuous piece defining an inner space encompassing substantially all of the electrode assembly and an electrolytic solution, the upper can having an open top and an open bottom, the top of the upper can being bent inwards, and the lower sealing member coupled to the bottom of the upper can to seal the bottom of the upper can; and a cap assembly having a top cap protruding on an uppermost portion thereof to form a cathode, a safety vent located below the top cap and configured to change a shape when an inner pressure of the battery case increases, and a gasket surrounding rims of the top cap and the safety vent, the gasket having a protrusion supporting a lower end of the rim of the safety vent upwards, wherein the open top of the upper can is sized so that the cap assembly and the electrode assembly are not able to pass through, but the open bottom of the upper can is sized so that the cap assembly and the electrode assembly are able to pass through, and wherein the battery case does not include a beading portion and the cap assembly is not welded to the battery case. 2. The secondary battery according to claim 1 , wherein the upper can and the lower sealing member are coupled by means of laser welding. 3. The secondary battery according to claim 1 , wherein the lower sealing member has a groove, and the upper can is inserted into the groove of the lower sealing member. 4. The secondary battery according to claim 1 , further comprising: a current interruptive member having an upper portion connected to a lower end of the safety vent and a lower portion connectable to the electrode assembly; and an insulation member interposed between the safety vent and the current interruptive member to electrically insulate the current interruptive member except for a part thereof from the safety vent. 5. The secondary battery according to claim 1 , further comprising a safety element disposed between the top cap and the safety vent to interrupt a current when temperature rises. 6. The secondary battery according to claim 1 , wherein the upper can has a cylindrical shape. 7. A battery pack, which comprises the secondary battery defined in claim 1 . 8. A method for manufacturing a secondary battery, the method comprising: preparing an electrode assembly having a cathode plate and an anode plate arranged with a separator being interposed therebetween; preparing a battery case having an upper can and a lower sealing member, the upper can being a single, continuous piece defining an inner space encompassing substantially all of the electrode assembly and an electrolytic solution, the upper can having an open top and an open bottom, the top of the upper can being bent inwards, and the lower sealing member separated from the upper can; preparing a cap assembly having a top cap protruding on an uppermost portion thereof to form a cathode terminal, a safety vent located below the top cap and configured to deform a shape when an inner pressure of the battery case increases, and a gasket surrounding rims of the top cap and the safety vent, the gasket having a protrusion supporting a lower end of the rim of the safety vent upwards, wherein, the open top of the upper can is sized so that the cap assembly and the electrode assembly are not able to pass through, but the open bottom of the upper can is sized so that the cap assembly and the electrode assembly are able to pass through; inserting the cap assembly upwards through the bottom opening of the upper can so that an upper end of the gasket contacts an inner surface of the bent top of the upper can; inserting the electrode assembly upwards through the bottom opening of the upper can and into the inner space of the upper can to be located below the cap assembly; and coupling the lower sealing member to the bottom of the upper can to seal the bottom of the upper can, wherein the battery case does not include a beading portion and the cap assembly is not welded to the battery case. 9. The method for manufacturing a secondary battery according to claim 8 , wherein, in the process of coupling the lower sealing member to the bottom of the upper can, the lower sealing member is coupled to the bottom of the upper can by means of laser welding. 10. The method for manufacturing a secondary battery according to claim 8 , wherein, in the process of coupling the lower sealing member to the bottom of the upper can, the upper can is inserted into a groove of the lower sealing member. 11. The method for manufacturing a secondary battery according to claim 8 , wherein, in the process of preparing the cap assembly, the cap assembly further includes a current interruptive member having an upper portion connected to a lower end of the safety vent and a lower portion connectable to the electrode assembly, and an insulation member interposed between the safety vent and the current interruptive member to electrically insulate the current interruptive member except for a part thereof from the safety vent. 12. The method for manufacturing a secondary battery according to claim 8 , wherein, in the process of preparing the cap assembly, the cap assembly further includes a safety element disposed between the top cap and the safety vent to interrupt a current when temperature rises. 13. The method for manufacturing a secondary battery according to claim 8 , wherein the upper can has a cylindrical shape. 14. The secondary battery according to claim 1 , wherein the gasket has an upper end contacting an inner surface of the bent top of the upper can and a lower end contacting an upper surface of the electrode assembly. 15. The secondary battery according to claim 1 , further comprising an upper insulation plate provided at an upper portion of the electrode assembly, wherein the gasket has an upper end contacting an inner surface of the bent top of the upper can and a lower end contacting an upper surface of the upper insulation plate. 16. The method for manufacturing a secondary battery according to claim 8 , wherein, in the process of inserting the electrode assembly, the electrode assembly is inserted so that an upper surface of the electrode assembly contacts a lower end of the gasket. 17. The method for manufacturing a secondary battery according to claim 8 , wherein, in the process of preparing the electrode assembly, an upper insulation plate is further provided at an upper portion of the electrode assembly, and wherein, in the process of inserting the electrode assembly, the electrode assembly is inserted so that an upper surface of the upper insulation plate contacts a lower end of the gasket.