Rotary forge device testing device, testing tool, testing method, bearing unit manufacturing device, bearing unit manufacturing method, and vehicle manufacturing method

The invention claimed is: 1. An inspection method comprising: providing a swing forging apparatus which comprises:— a head configured to be rotatively driven about a central axis of the head, a processing roll configured to be removably supported by the head so that the processing roll is rotatable about a central axis of the processing roll at a state where the central axis of the processing roll is inclined relative to the central axis of the head, an inspection tool configured to be removably supported by the head as a substitute for the processing roll in a substantially same condition as the processing roll, the inspection tool emitting a laser beam along a central axis thereof onto a laser irradiation surface, wherein a relative position of the laser irradiation surface to the head in an axial direction of the head is adjustable; rotatively driving the head about the central axis of the head and irradiating the laser beam emitted from the inspection tool along the central axis of the inspection tool onto the laser irradiation surface; adjusting a radius of a locus of an irradiation position of the laser beam onto the laser irradiation surface to minimize the radius of the locus by changing a relative position between the head and the laser irradiation surface in the axial direction of the head; and obtaining a position of the locus having the minimum radius at a coordinate system set for the swing forging apparatus. 2. The inspection method of claim 1 , further comprising arranging a sensor to detect an irradiation position of the laser beam on the laser irradiation surface. 3. The inspection method of claim 2 , detecting a detection signal of the sensor when the radius becomes smallest. 4. The inspection method of claim 3 , further comprising estimating the position of the locus having the minimum radius as a position of a swing center of the processing roll at a state where the processing roll is supported by the head. 5. The inspection method of claim 2 , further comprising obtaining a variation ΔR in a radius of the locus of the irradiation position on a basis of a detection signal of the sensor when the relative position is changed by a variation ΔL, and obtaining an inclination angle of the central axis of the inspection tool relative to the central axis of the head by using the respective variations ΔL and ΔR. 6. The inspection method of claim 5 , further comprising estimating the inclination angle of the central axis of the inspection tool relative to the central axis of the head as an inclination angle of the central axis of the processing roll relative to the central axis of the head at a state where the processing roll is supported on the head. 7. An inspection method comprising: providing a swing forging apparatus which comprises: a head configured to be rotatively driven about a central axis of the head, a processing roll configured to be removably supported by the head so that the processing roll is rotatable about a central axis of the processing roll at a state where the central axis of the processing roll is inclined relative to the central axis of the head, an inspection tool configured to be removably supported by the head as a substitute for the processing roll in a substantially same condition as the processing roll, the inspection tool emitting a laser beam along a central axis thereof onto a laser irradiation surface, wherein a relative position of the laser irradiation surface to the head in an axial direction of the head is adjustable; rotatively driving the head about a central axis of the head and irradiating the laser beam emitted from the inspection tool along the central axis of the inspection tool onto the laser irradiation surface; obtaining a variation ΔR in a radius of the locus of the irradiation position when the relative position is changed by a variation ΔL by changing a locus of an irradiation position of the laser beam to the laser irradiation surface by changing a relative position between the head and the laser irradiation surface in the axial direction of the head; and obtaining an inclination angle of the central axis of the inspection tool relative to the central axis of the head by using the variations ΔL and ΔR. 8. The inspection method of claim 7 , further comprising arranging a sensor to detect an irradiation position of the laser beam to the laser irradiation surface. 9. The inspection method of claim 8 , detecting a detection signal of the sensor when the radius becomes smallest. 10. The inspection method of claim 9 , further comprising estimating the position of the locus having the minimum radius as a position of a swing center of the processing roll at a state where the processing roll is supported by the head.