Method for manufacturing outer joint member of constant velocity universal joint and ultrasonic flaw detection-inspection method for a welded portion

The invention claimed is: 1. A manufacturing method for an outer joint member of a constant velocity universal joint, the outer joint member comprising: a cup section having track grooves formed in an inner periphery of the cup section, which are engageable with torque transmitting elements; and a shaft section formed at a bottom portion of the cup section, the outer joint member being constructed by forming the cup section and the shaft section as separate members, and by welding a cup member forming the cup section and a shaft member forming the shaft section to each other, the manufacturing method at least comprising: a welding step of welding the cup member and the shaft member to form a workpiece by irradiating a beam to joining end portions of the cup member and the shaft member; a removal processing step of causing an outer surface of the workpiece including a welded portion formed in the welding step to be formed into a cylindrical smooth surface having a surface roughness of Ra 2.0 μm or less by turning; and an ultrasonic flaw detection-inspection step of inspecting the welded portion, the ultrasonic flaw detection-inspection step comprising a circumferential angle beam flaw detection method that includes irradiating ultrasonic waves to the cylindrical smooth surface of the welded portion with one probe in a direction parallel to turning marks formed by the turning and at an incident angle which prevents total reflection of the ultrasonic waves, wherein the circumferential angle beam flaw detection method includes a plurality of steps each of which comprises positioning the one probe in an X-axis direction that is perpendicular to a predetermined diameter line in a cross section of the workpiece perpendicular to an axis of the workpiece, in a Y-axis direction that is parallel to the predetermined diameter line and in a Z-axis direction that is parallel to the axis of the workpiece while making an axis of an ultrasonic transmission pulse to be transmitted from the one probe perpendicular to the predetermined diameter line and offset in the Y-axis direction with respect to a longitudinal section of the workpiece including the axis of the workpiece, transmitting the ultrasonic transmission pulse from the one probe to the workpiece, and receiving a reflection echo from the workpiece, wherein, in the plurality of steps of the circumferential angle beam flaw detection method, a position of the one probe in the Z-axis direction is different in each of the plurality of steps, and the circumferential angle beam flaw detection method further includes repeating the plurality of steps a plurality times, and changing a position of the one probe in the X-axis direction so as to set a focal point of the ultrasonic waves of the one probe to a different position within a thickness of the welded portion each of the plurality of times the plurality of steps is performed to thereby inspect an entire region of the welded portion. 2. The manufacturing method for an outer joint member of a constant velocity universal joint according to claim 1 , wherein the incident angle of the axis of the ultrasonic transmission pulse of the ultrasonic waves is set to from 10° to 27°. 3. The manufacturing method for an outer joint member of a constant velocity universal joint according to claim 1 , wherein the positioning of the one probe is controlled by a program. 4. The manufacturing method for an outer joint member of a constant velocity universal joint according to claim 1 , wherein the ultrasonic flaw detection-inspection, step further includes rotating the workpiece during the inspecting. 5. An ultrasonic flaw detection-inspection method for a welded portion of an outer joint member of a constant velocity universal joint, the outer joint member comprising: a cup section having track grooves formed in an inner periphery of the cup section, which are engageable with torque transmitting elements; and a shaft section formed at a bottom portion of the cup section, the outer joint member being constructed by forming the cup section and the shaft section as separate members, and by welding a cup member forming the cup section and a shaft member forming the shaft section to each other to form a workpiece, the ultrasonic flaw detection-inspection method comprising: forming an outer surface of the workpiece including the welded portion into a cylindrical smooth surface having a surface roughness of Ra 2.0 μm or less by turning; and carrying out a circumferential angle beam flaw detection method including irradiating ultrasonic waves to the cylindrical smooth surface of the welded portion with one probe in a direction parallel to turning marks formed by the turning and at an incident angle which prevents total reflection of the ultrasonic waves, wherein the circumferential angle beam flaw detection method including a plurality of steps each of which comprises positioning the one probe in an X-axis direction that is perpendicular to a predetermined diameter line in a cross section of the workpiece perpendicular to an axis of the workpiece, in a Y-axis direction that is parallel to the predetermined diameter line and in a Z-axis direction that is parallel to the axis of the workpiece while making an axis of an ultrasonic transmission pulse to be transmitted from the one probe perpendicular to the predetermined diameter line and offset in the Y-axis direction with respect to a longitudinal section of the workpiece including the axis of the workpiece, transmitting the ultrasonic transmission pulse from the one probe to the workpiece and receiving a reflection echo from the workpiece, wherein, in the plurality of steps of the circumferential angle beam flaw detection method, a position of the one probe in the Z-axis direction is different in each of the plurality of steps, and the circumferential angle beam flaw detection method further includes repeating the plurality of steps a plurality times, and changing a position of the one probe in the X-axis direction so as to set a focal point of the ultrasonic waves of the one probe to a different position within a thickness of the welded portion each of the plurality of times the plurality of steps is performed to thereby inspect an entire region of the welded portion.