Flanged inner ring for orbital forming operation

What is claimed is: 1. A flanged inner ring, comprising: a rolling edge configured to axially preloaded a radially inner ring of a rolling bearing after being plastically deformed, wherein, the rolling edge includes a diameter of increasing variable size along an axis (X) of symmetry of the flanged inner ring and, wherein the increasing variable size increases along the axis (X) in a direction away from the radially inner ring, wherein the rolling edge includes an outer preloading surface configured such that in a deformed configuration the outer preloading surface is arranged against the radially inner ring and such that in an undeformed configuration the outer preloading surface is inclined away from the axis (X) of symmetry of the flanged inner ring. 2. The flanged inner ring of claim 1 , wherein the outer preloading surface is axially aligned with a radially outer surface for mounting the radially inner ring, and is connected to the radially outer surface via a connecting surface, the outer preloading surface includes a diameter smaller in size than a diameter of the radially outer surface at least along the connecting surface. 3. The flanged inner ring of claim 2 , wherein the outer preloading surface is a conical surface, and the rolling edge includes a radial thickness which is gradually thicker along the axis (X) of symmetry in the direction away from the inner ring. 4. The flanged inner ring of claim 1 , wherein the rolling edge further includes an inner cylindrical surface coaxial with the axis (X) of symmetry. 5. The flanged inner ring of claim 4 , wherein the rolling edge further includes an annular connecting surface connecting the outer preloading surface and the inner cylindrical surface. 6. The flanged inner ring of claim 5 , wherein the annular connecting surface extends in a direction transverse to the axis (X) of symmetry. 7. The flanged inner ring of claim 6 , wherein the annular connecting surface is chamfered towards the outer preloading surface. 8. The flanged inner ring of claim 1 , further comprising an axially outer flange portion configured to be connected to a wheel. 9. The flanged inner ring of claim 1 , further comprising at least one raceway on an axially outer surface of the flanged inner ring. 10. The flanged inner ring of claim 1 , further comprising a shoulder formed on an axially outer surface of the flanged inner ring, wherein the rolling edge is configured to preload the radially inner ring against the shoulder. 11. A flanged inner ring, comprising: a rolling edge configured to axially preloaded a radially inner ring of a rolling bearing after being plastically deformed, wherein, the rolling edge includes a diameter of increasing variable size along an axis (X) of symmetry of the flanged inner ring and, wherein the increasing variable size increases along the axis (X) in a direction away from the radially inner ring, wherein the rolling edge includes an outer preloading surface configured such that in a deformed configuration the outer preloading surface is arranged against the radially inner ring and such that in an undeformed configuration the outer preloading surface is inclined away from the axis (X) of symmetry of the flanged inner ring; wherein the rolling edge further includes an inner cylindrical surface coaxial with the axis (X) of symmetry. 12. The flanged inner ring of claim 11 , wherein the outer preloading surface is axially aligned with a radially outer surface for mounting the radially inner ring, and is connected to the radially outer surface via a connecting surface, the outer preloading surface includes a diameter smaller in size than a diameter of the radially outer surface at least along the connecting surface. 13. The flanged inner ring of claim 12 , wherein the outer preloading surface is a conical surface, and the rolling edge includes a radial thickness which is gradually thicker along the axis (X) of symmetry in the direction away from the inner ring. 14. The flanged inner ring of claim 11 , wherein the rolling edge further includes an annular connecting surface connecting the outer preloading surface and the inner cylindrical surface. 15. The flanged inner ring of claim 14 , wherein the annular connecting surface extends in a direction transverse to the axis (X) of symmetry. 16. The flanged inner ring of claim 15 , wherein the annular connecting surface is chamfered towards the outer preloading surface. 17. The flanged inner ring of claim 11 , further comprising an axially outer flange portion configured to be connected to a wheel. 18. The flanged inner ring of claim 11 , further comprising at least one raceway on an axially outer surface of the flanged inner ring. 19. The flanged inner ring of claim 11 , further comprising a shoulder formed on an axially outer surface of the flanged inner ring, wherein the rolling edge is configured to preload the radially inner ring against the shoulder. 20. A flanged inner ring, comprising: a rolling edge configured to axially preloaded a radially inner ring of a rolling bearing after being plastically deformed, wherein, the rolling edge includes a diameter of increasing variable size along an axis (X) of symmetry of the flanged inner ring and, wherein the increasing variable size increases along the axis (X) in a direction away from the radially inner ring, wherein the rolling edge includes an outer preloading surface configured such that in a deformed configuration the outer preloading surface is arranged against the radially inner ring and such that in an undeformed configuration the outer preloading surface is inclined away from the axis (X) of symmetry of the flanged inner ring; wherein the rolling edge further includes an inner cylindrical surface coaxial with the axis (X) of symmetry, and further wherein the rolling edge further includes an annular connecting surface connecting the outer preloading surface and the inner cylindrical surface, the annular connecting surface extends in a direction transverse to the axis (X) of symmetry, and the annular connecting surface is chamfered towards the outer preloading surface.