Constant velocity universal joint outer joint member and manufacturing method for same

The invention claimed is: 1. A method of manufacturing an outer joint member of a constant velocity universal joint, the method comprising: forming a cup member by forging, the forging comprising: upsetting a billet having a columnar shape successively in a plurality of stages; extruding a cylindrical portion and a shaft portion; and ironing the cylindrical portion; and joining the cup member and a shaft member to form the outer joint member, wherein the cup member has a bottomed cylindrical shape that is opened at an end on one side in an axial direction, and comprises the cylindrical portion, a bottom portion, and the shaft portion protruding from the bottom portion toward another side in the axial direction, the shaft portion has a solid shaft shape, and comprises an annular joining end surface at an end portion thereof, the shaft member has a solid shaft shape, and comprises an annular joining end surface at one end thereof, the joining comprises bringing the annular joining end surface of the cup member and the annular joining end surface of the shaft member into abutment against each other and welding the annular joining end surface of the cup member and the annular joining end surface of the shaft member to form a welded portion having an annular shape, in a course of the upsetting, a diameter of a first region of the billet corresponding to an opening side of the cup member is increased and a second region corresponding to a bottom side of the cup member is narrowed, the welded portion is formed on a cup member side with respect to a bearing mounting surface formed on the shaft member, and the welded portion formed by the welding is free from interference with center segregation of the cup member. 2. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 1 , wherein the welding is performed through radiation of a high energy intensity beam from a radially outer side. 3. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 2 , wherein the upsetting comprises: using a die having an inner diameter that is larger than an outer diameter of the billet in the first region corresponding to the opening side of the cup member, and an inner diameter that is gradually reduced in the second region corresponding to the bottom side of the cup member, and sequentially using a plurality of dies, including the die, having gradually increased inner diameters in the first region to increase a diameter of the billet in the first region corresponding to the opening side of the cup member and to narrow the billet in the second region corresponding to the bottom side of the cup member. 4. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 2 , wherein the extruding comprises performing forward extrusion for forming the shaft portion and backward extrusion for forming the cylindrical portion. 5. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 1 , wherein the upsetting comprises: using a die having an inner diameter that is larger than an outer diameter of the billet in the first region corresponding to the opening side of the cup member, and an inner diameter that is gradually reduced in the second region corresponding to the bottom side of the cup member, and sequentially using a plurality of dies, including the die, having gradually increased inner diameters in the first region to increase a diameter of the billet in the first region corresponding to the opening side of the cup member and to narrow the billet in the second region corresponding to the bottom side of the cup member. 6. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 5 , wherein a vertical section of the die in the second region has a recessed arc shape. 7. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 6 , wherein the extruding comprises performing forward extrusion for forming the shaft portion and backward extrusion for forming the cylindrical portion. 8. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 6 , wherein the extruding comprises performing forward extrusion for forming the shaft portion, and when the second region narrowed in the course of the upsetting is subjected to the forward extrusion to form the shaft portion, a fiber flow in the axial direction is formed. 9. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 5 , wherein a vertical section of the die in the second region has a taper shape. 10. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 9 , wherein the extruding comprises performing forward extrusion for forming the shaft portion and backward extrusion for forming the cylindrical portion. 11. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 9 , wherein the extruding comprises performing forward extrusion for forming the shaft portion, and when the second region narrowed in the course of the upsetting is subjected to the forward extrusion to form the shaft portion, a fiber flow in the axial direction is formed. 12. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 5 , wherein a vertical section of the die in the second region has a combined shape of a recessed arc and a taper. 13. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 12 , wherein the extruding comprises performing forward extrusion for forming the shaft portion and backward extrusion for forming the cylindrical portion. 14. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 12 , wherein the extruding comprises performing forward extrusion for forming the shaft portion, and when the second region narrowed in the course of the upsetting is subjected to the forward extrusion to form the shaft portion, a fiber flow in the axial direction is formed. 15. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 5 , wherein the extruding comprises performing forward extrusion for forming the shaft portion, and when the second region narrowed in the course of the upsetting is subjected to the forward extrusion to form the shaft portion, a fiber flow in the axial direction is formed. 16. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 5 , wherein the extruding comprises performing forward extrusion for forming the shaft portion and backward extrusion for forming the cylindrical portion. 17. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 1 , wherein the extruding comprises performing forward extrusion for forming the shaft portion and backward extrusion for forming the cylindrical portion. 18. The method of manufacturing an outer joint member of a constant velocity universal joint according to claim 17 , wherein, when the second region narrowed in the course of the upsetting is subjected to the forward extrusion to form the shaft portion, a fiber flow in the axial direction is formed.