Method of manufacturing heat exchanger for rotating electrical machine, and pressing device

What is claimed is: 1 . A method of manufacturing a heat exchanger for a rotating electrical machine, the method comprising: inserting a tube into through holes of two supporting members, the tube having an external shape that enables insertion into the through holes that are provided in the two supporting members arranged to be separated from each other, and that are arranged in an arrangement direction of the two supporting members; mounting a pressing device in the tube by placing the pressing device inside the tube, the pressing device having, when placed in the tube, a first pressing part that extends in an axial direction of the tube, a second pressing part that is provided so as to be opposed to the first pressing part and that extends in the axial direction of the tube, and an elastic member that is interposed between the first pressing part and the second pressing part, the mounting being performed with the elastic member compressed so that the first pressing part and the second pressing part press the tube mutually oppositely in directions in which a diameter of at least a part of the tube expands, the part being located between two of the through holes of the two supporting members; forming an inside large diameter part and inside connecting parts in the tube by building up pressure inside the tube in which the pressing device is mounted and plastically deforming the tube, the inside large diameter part being located between the two supporting members, a cross section of the inside large diameter part orthogonal to the arrangement direction of the two supporting members having an elliptic shape, a major axis direction of the elliptic shape being along an arrangement direction of the first pressing part and the second pressing part, an external shape of the cross section being larger than external shapes of the through holes, the inside connecting parts connecting the inside large diameter part to insertion parts and facing the supporting members, the insertion parts being parts located inside the through holes in the tube; and removing the pressing device from the tube in which the inside large diameter part and the inside connecting parts are formed. 2 . The method of manufacturing the heat exchanger for the rotating electrical machine according to claim 1 , wherein the pressing device has, as the elastic member, a plurality of elastic members arranged to be spaced from each other in the axial direction of the tube when the pressing device is placed in the tube. 3 . The method of manufacturing the heat exchanger for the rotating electrical machine according to claim 2 , wherein, at the mounting, the pressing device is mounted in the tube in such a manner that all the elastic members are located outside the through holes. 4 . The method of manufacturing the heat exchanger for the rotating electrical machine according to claim 1 , wherein a cross section of the tube has an elliptic cross section orthogonal to the axial direction of the tube before being plastically deformed at the forming, the first pressing part has a first contact surface along one of two opposing parts of an inner peripheral surface of the tube before being plastically deformed, the opposing parts being opposed to each other in a major axis direction of an elliptic cross section, the second pressing part has a second contact surface along the other of the two opposing parts, and at the mounting, the pressing device is mounted in the tube in such a manner that the first contact surface is in contact with the one of the opposing parts, and that the second contact surface is in contact with the other of the opposing part. 5 . The method of manufacturing the heat exchanger for the rotating electrical machine according to claim 1 , wherein at the mounting, the pressing device is placed inside the tube with the elastic member compressed so that the first pressing part and the second pressing part press the tube mutually oppositely in directions in which an outside diameter and an inside diameter of the part of the tube, the part being located between the two of the through holes of the two supporting members, and outside diameters and inside diameters of protruding parts expand, the protruding parts being parts protruding from the two of the through holes to outsides of the two supporting members, and at the forming, outside large diameter parts and outside connecting parts are formed at the protruding parts by building up pressure inside the tube in which the pressing device is mounted and deforming the tube, cross sections of the outside large diameter parts orthogonal to the arrangement direction of the two supporting members having elliptic shapes, major axis directions of the elliptic shapes being along the arrangement direction of the first pressing part and the second pressing part, external shapes of the cross sections being larger than external shapes of the through holes, the outside connecting parts connecting the outside large diameter parts to the insertion parts and facing the supporting members. 6 . The method of manufacturing the heat exchanger for the rotating electrical machine according to claim 1 , wherein the through holes have elliptic shapes, and at the mounting, the pressing device is placed inside the tube in such a manner that the first pressing part and the second pressing part are arranged in a major axis direction of the through holes. 7 . A pressing device mounted in a tube in a method of manufacturing a heat exchanger for a rotating electrical machine, the method including inserting the tube into through holes of two supporting members, the tube having an external shape that enables insertion into the through holes that are provided in the two supporting members arranged to be separated from each other, and that are arranged in an arrangement direction of the two supporting members, the pressing device comprising: a first pressing part that extends in an axial direction of the tube; a second pressing part that is provided so as to be opposed to the first pressing part and that extends in the axial direction of the tube; and an elastic member that is interposed between the first pressing part and the second pressing part, wherein the pressing device is placed inside the tube with the elastic member compressed so that the first pressing part and the second pressing part press the tube mutually oppositely in directions in which a diameter of at least a part of the tube expands, the part being located between two of the through holes of the two supporting members.