Method for producing wheel-supporting roller bearing unit

The invention claimed is: 1. A method for producing a wheel-supporting rolling bearing unit, which includes: an inner member having a first inner raceway surface and a second inner raceway surface on an outer circumferential surface of the inner member; an outer member having a first outer raceway surface opposite to the first inner raceway surface and a second outer raceway surface opposite to the second inner raceway surface and being disposed on an outside of the inner member; and rolling elements disposed between the first inner raceway surface and the first outer raceway surface, and between the second inner raceway surface and the second outer raceway surface so as to be capable of rolling, in which the inner member is configured such that a hub ring in which the first inner raceway surface is formed on the outer circumferential surface directly or via an inner raceway ring and an inner ring in which the second inner raceway surface is formed on the outer circumferential surface are fixed integrally with each other, the method comprising: inserting a cylindrical portion into the inner ring, the cylindrical portion being formed on an axial end portion of the hub ring; performing a swing caulking by pressing a die against a tip end portion of the cylindrical portion protruding on an axial end side more than the inner ring; holding an axial end surface of the inner ring by a caulked portion formed by the swing caulking and expanding the tip end portion of the cylindrical portion radially outward, and fixing the inner ring and the hub ring integrally with each other, wherein a swing angle of the swing caulking is set at 15 degrees or more to 30 degrees or less, and wherein the swing caulking is performed so that a surface roughness (Ra) of a circumferential surface of a base end portion of the cylindrical portion, located on a base end side more than the tip end portion and in contact with the inner circumferential surface of the inner ring, of the caulked portion is 20 pm or less. 2. The method for producing the wheel-supporting rolling bearing unit according to claim 1 , wherein the swing caulking is performed by using a riveting machine in which a maximum machining load is 150 kN or less. 3. The method for producing the wheel-supporting rolling bearing unit according to claim 2 , wherein the riveting machine includes: a spindle on which the die is mounted; and a motor that rotates the spindle, and the spindle and the motor are directly connected to each other. 4. The method for producing the wheel-supporting rolling bearing unit according to claim 3 , wherein rotation of the motor is subjected to an inverter control, and the inverter control is a vector control. 5. The method for producing the wheel-supporting rolling bearing unit according to claim 1 , wherein a swing rotation speed of the swing caulking is set at 100 min −1 or more to 299 min −1 or less. 6. The method for producing the wheel-supporting rolling bearing unit according to claim 1 , wherein SKD11 steel prescribed in JIS G4404 is used as a material of the die, and a lubricant is not used in the swing caulking. 7. The method for producing the wheel-supporting rolling bearing unit according to claim 1 , wherein the swing caulking is performed so that an effective strain of the caulked portion is 0.015 strain or less. 8. A method for producing the wheel-supporting rolling bearing unit, which includes: an inner member having a first inner raceway surface and a second inner raceway surface on an outer circumferential surface of the inner member; an outer member having a first outer raceway surface opposite to the first inner raceway surface and a second outer raceway surface opposite to the second inner raceway surface and being disposed on an outside of the inner member; and rolling elements disposed between the first inner raceway surface and the first outer raceway surface, and between the second inner raceway surface and the second outer raceway surface so as to be capable of rolling, in which the inner member is configured such that a hub ring in which the first inner raceway surface is formed on the outer circumferential surface directly or via an inner raceway ring and an inner ring in which the second inner raceway surface is formed on the outer circumferential surface are fixed integrally with each other, the method comprising: inserting a cylindrical portion into the inner ring, the cylindrical portion being formed on an axial end portion of the hub ring; performing a swing caulking step by pressing a die against a tip end portion of the cylindrical portion protruding on an axial end side more than the inner ring: holding an axial end surface of the inner ring by a caulked portion formed by the swing caulking step and expanding the tip end portion of the cylindrical portion radially outward, and fixing the inner ring and the hub ring integrally with each other, wherein a swing angle of the swing caulking step is set at 15 degrees or more to 30 degrees or less, and the performing the swing caulking step includes: performing a swing caulking at at least two swing angles as a preliminary test; measuring a surface roughness (Ra) of the caulked portion at each of the at least two swing angles; applying the at least two swing angles and the surface roughness (Ra) of the caulked portion at each of the at least two swing angles to a following Expression (1) that expresses a relationship between the swing angle (α) and the surface roughness (Ra) of the caulked portion; calculating constants A and C, which satisfy the following Expression (1); calculating a swing angle at which a surface roughness (Ra) of the caulked portion becomes a predetermined value by using the following Expression (1) with the determined constants A and C; and performing the swing caulking step for producing the wheel-supporting rolling bearing unit by using the calculated swing angle, Expression ⁢ ⁢ 1 Ra = A ⁢ 1 - ( sin ⁢ ⁢ α - ɛ sin ⁢ ⁢ α )