Pouch battery and manufacturing method thereof

What is claimed is: 1. A pouch battery comprising: an electrode assembly; and a pouch case comprising a receiving part accommodating the electrode assembly, wherein corners or vertices of the receiving part are coated with a UV curing agent while other portions of the receiving part remain exposed with respect to the UV curing agent. 2. The pouch battery of claim 1 , wherein the pouch case comprises: a pouch body comprising the receiving part accommodating the electrode assembly therein and having one open side; and a pouch cover having a generally plate shape and coupled to one side of the pouch body to cover the receiving part of the pouch body. 3. The pouch battery of claim 2 , wherein the UV curing agent is coated on inner corners of the receiving part. 4. The pouch battery of claim 2 , wherein the UV curing agent is coated on outer corners of the receiving part. 5. The pouch battery of claim 2 , wherein the UV curing agent is coated on outer vertices of the receiving part. 6. The pouch battery of claim 2 , wherein the pouch body comprises the receiving part and a planar part, the receiving part having a bottom part that is a rectangular planar plate and lateral parts extending from corners of the bottom part in a direction generally perpendicular to the bottom part, and the planar part being bent from the lateral parts of the receiving part and extends outward from the receiving part in parallel with the bottom part. 7. The pouch battery of claim 6 , wherein the UV curing agent is coated on vertices of the bottom part inside the receiving part. 8. The pouch battery of claim 6 , wherein the pouch case is configured such that the planar part of the pouch body and the pouch cover are bonded to each other, and positive and negative electrode tabs of the electrode assembly are exposed to the outside. 9. A manufacturing method of a pouch battery, the manufacturing method comprising: forming a pouch case by forming a receiving part that is a groove formed in a rectangular pouch film by a pressing process; coating a UV curing agent on corners or vertices of the receiving part while other portions of the receiving part remain exposed with respect to the UV curing agent; mounting an electrode assembly in the receiving part of the pouch case; and sealing the pouch case accommodating the electrode assembly. 10. The manufacturing method of claim 9 , wherein in the coating of the UV curing agent, the UV curing agent is coated on inner corners of the receiving part. 11. The manufacturing method of claim 9 , wherein in the coating of the UV curing agent, the UV curing agent is coated on outer corners of the receiving part. 12. The manufacturing method of claim 9 , wherein in the coating of the UV curing agent, the UV curing agent is coated on inner vertices of the receiving part. 13. The manufacturing method of claim 9 , wherein in the coating of the UV curing agent, the UV curing agent is coated on outer vertices of the receiving part. 14. The manufacturing method of claim 11 , wherein the pouch case comprises: a pouch body comprising the receiving part and a planar part, the receiving part having a bottom part that is a rectangular planar plate and lateral parts extending from corners of the bottom part in a direction generally perpendicular to the bottom part, and the planar part being bent from the lateral parts of the receiving part and extending outward from the receiving part in parallel with the bottom part; and a pouch cover having a generally plate shape and coupled to one side of the pouch body to cover the receiving part of the pouch body. 15. A manufacturing method of a pouch battery, the manufacturing method comprising: forming a pouch case by forming a receiving part that is a groove formed in a rectangular pouch film by a pressing process; mounting an electrode assembly in the receiving part of the pouch case; sealing the pouch case accommodating the electrode assembly; and coating a UV curing agent on outer corners or vertices of the receiving part while other portions of the receiving part remain exposed with respect to the UV curing agent.