Pouch type secondary battery and manufacturing method thereof

The invention claimed is: 1. A pouch type secondary battery comprising: an electrode assembly including a cell and an electrode; a pouch having a receiving space configured to receive the electrode assembly therein, the pouch including upper and lower sheets configured to surround upper and lower plate surfaces of the electrode assembly respectively; an outer peripheral sealing region formed by compressing the upper and lower sheets, the outer peripheral sealing region surrounding the electrode assembly and the receiving space; a terrace sealing formed by compressing the upper and lower sheets, which surround a terrace, in a thickness direction thereof so that the upper and lower sheets come into contact with each other, the terrace being an empty space in the receiving space excluding a space occupied by the electrode assembly, the terrace sealing being disposed within the receiving space and surrounded by the outer peripheral sealing region; and at least one sheet penetration hole formed in at least one sheet of the upper and lower sheets so as to penetrate the at least one sheet in the thickness direction, the sheet penetration hole being formed at a position overlapping the terrace sealing, the sheet penetration hole being configured to remove gas from the receiving space, the sheet penetration hole remaining within the receiving space and within the outer peripheral sealing region after assembly of the pouch type secondary battery is completed, wherein the upper and lower plate surfaces of the electrode assembly have an outer perimeter facing away from a geometric center of the upper and lower plate surfaces, and the terrace sealing is located outside of the outer perimeter of the upper and lower plate surfaces. 2. The battery according to claim 1 , wherein the terrace sealing is formed such that a cross section thereof in a plane crossing the thickness direction of the upper and lower sheets has any one of circular, polygonal, and amorphous shapes. 3. The battery according to claim 2 , wherein the cross section of the terrace sealing has a line formed along the electrode assembly so as to prevent an empty space from being defined in a region where the terrace sealing comes into contact with the electrode assembly. 4. The battery according to claim 1 , wherein, when the plate surface of the electrode assembly has a polygonal shape, the terrace sealing is formed in at least one of respective corners of the electrode assembly having a polygonal shape. 5. The battery according to claim 1 , further comprising an electrode lead electrically connected to the electrode of the electrode assembly, one end of the electrode lead being exposed outside the pouch, wherein the terrace sealing is surrounded by the outer peripheral sealing region, the electrode assembly, and the electrode lead. 6. The battery according to claim 5 , wherein the terrace sealing is shaped such that a cross section thereof in a direction crossing the thickness direction of the sheets comes into contact with all of the outer peripheral sealing region, the electrode assembly, and the electrode lead. 7. A method of manufacturing a pouch type secondary battery comprising: providing an electrode assembly including a cell and an electrode and a pouch having a receiving space configured to receive the electrode assembly therein, the pouch including upper and lower sheets configured to surround upper and lower plate surfaces of the electrode assembly respectively; receiving the electrode assembly in the receiving space in the pouch; forming an outer peripheral sealing region to seal the electrode assembly by bonding outer peripheral regions of the upper and lower sheets to each other, the outer peripheral sealing region surrounding the electrode assembly and the receiving space; after forming the outer peripheral sealing region, forming a terrace sealing within the receiving space and surrounded by the outer peripheral sealing region by compressing the upper and lower sheets, which surround a terrace, in a thickness direction so as to bond the upper and lower sheets to each other, the terrace being an empty space in the receiving space excluding a space occupied by the electrode assembly; charging and discharging the electrode assembly; after the charging and discharging, and before or after the forming the terrace sealing, removing gas generated during the charging and discharging by forming a sheet penetration hole in at least one sheet of the upper and lower sheets so as to penetrate the at least one sheet of the upper and lower sheets in the thickness direction, the sheet penetration hole being formed at a position overlapping the terrace sealing, the sheet penetration hole remaining within the receiving space and within the outer peripheral sealing region after the method of manufacturing the pouch type secondary battery is completed, wherein the upper and lower plate surfaces of the electrode assembly have an outer perimeter facing away from a geometric center of the upper and lower plate surfaces, and the terrace sealing is located outside of the outer perimeter of the upper and lower plate surfaces. 8. The method according to claim 7 , wherein the forming of the terrace sealing is performed such that a cross section thereof in a plane crossing the thickness direction of the upper and lower sheets has any one of circular, polygonal, and amorphous shapes. 9. The method according to claim 8 , wherein the cross section of the terrace sealing has a line formed along the electrode assembly so as to prevent an empty space from being defined in a region where the terrace sealing comes into contact with the electrode assembly. 10. The method according to claim 7 , wherein, when the plate surface of the electrode assembly has a rectangular shape, the forming includes forming the terrace sealing in at least one of respective corners of the electrode assembly having a rectangular shape.