Method for manufacturing battery and battery

What is claimed is: 1. A method for manufacturing a battery, the battery including a wound electrode assembly formed by winding positive and negative electrode plates and a separator, each of the positive and negative electrode plates being a strip of current collector foil having an electrode active material-coated portion and an electrode active material-uncoated portion, the electrode active material-uncoated portion being located in one lateral end of the current collector foil, the separator being in a form of a strip and having such a width that the separator completely covers the electrode active material-coated portions and partially covers the electrode active material-uncoated portions, the wound electrode assembly having a central portion, a positive electrode connection portion, and a negative electrode connection portion, the central portion being a portion where all of the positive and negative electrode plates and the separator are present, the positive electrode connection portion being a portion where only a part of the electrode active material-uncoated portion of the positive electrode plate, which protrudes toward one side of the central portion, is present, and the negative electrode connection portion being a portion where only a part of the electrode active material-uncoated portion of the negative electrode plate, which protrudes toward another side of the central portion, is present, the method comprising: winding the positive and negative electrode plates and the separator to form the wound electrode assembly; cutting unwound portions of the positive and negative electrode plates and the separator such that the separator constitutes an outermost layer of the wound electrode assembly when the winding is completed; further winding around the wound electrode assembly the cut unwound portions of the positive and negative electrode plates and the separator which connect to the wound electrode assembly; fixing a part of a terminal end of the separator in a lateral direction to the wound electrode assembly, the terminal end being a cut end of the separator; and performing heat welding on parts of both lateral ends of an outermost portion of the separator in the wound electrode assembly which are located above the electrode active material-uncoated portion of the positive electrode plate or the electrode active material-uncoated portion of the negative electrode plate to fix the lateral ends to the wound electrode assembly; wherein the heat welding is performed using a probe having a front face at a tip end of the probe, the front face being a tilted surface, and in the heat welding, the front face heated to a temperature equal to or higher than a melting point of the separator is brought into contact with an outer surface of the outermost portion of the separator with a most distal part of the tilted front face of the probe facing a side farther from the electrode active material-coated portions of the positive and negative electrode plates and a most proximal part of the tilted front face of the probe facing a side closer to the electrode active material-coated portions of the positive and negative electrode plates. 2. The method according to claim 1 , wherein the part of the terminal end in the lateral direction is fixed to the wound electrode assembly by applying an adhesive tape to the wound electrode assembly such that the adhesive tape extends over the part of the terminal end. 3. A battery, comprising: a wound electrode assembly formed by winding positive and negative electrode plates and a separator, wherein each of the positive and negative electrode plates is a strip of current collector foil having an electrode active material-coated portion and an electrode active material-uncoated portion, the electrode active material-uncoated portion is located in one lateral end of the current collector foil, the separator is in a form of a strip, the wound electrode assembly has a central portion, a positive electrode connection portion, and a negative electrode connection portion, the central portion is a portion where all of the positive and negative electrode plates and the separator are present, the positive electrode connection portion is a portion where only a part of the electrode active material-uncoated portion of the positive electrode plate which protrudes toward one side of the central portion is present, the negative electrode connection portion is a portion where only a part of the electrode active material-uncoated portion of the negative electrode plate which protrudes toward another side of the central portion is present, the separator constitutes an outermost layer of the wound electrode assembly, and an outermost portion of the separator in the wound electrode assembly has heat welded portions in parts of both lateral ends of the outermost portion, which are located above the electrode active material-uncoated portion of the positive electrode plate or the electrode active material-uncoated portion of the negative electrode plate, the heat welded portions of the separator being fixed to the wound electrode assembly; wherein the heat welded portions are formed in rows on both lateral sides of the outermost layer of the separator at a plurality of positions from a terminal end side. 4. The battery according to claim 3 , further comprising an adhesive tape applied to the wound electrode assembly such that the adhesive tape extends over a part of a terminal end of the separator in the outermost layer of the wound electrode assembly.