Method for obtaining face teeth on an inner ring of a wheel hub and associated tool

We claim: 1. A method for obtaining a plurality of finished teeth, the method comprising: forming, on an annular collar of an inner ring of a wheel hub, a plurality of annular roughed-out teeth comprising a plurality of first radially extending teeth arranged annularly and a plurality of first radial concavities alternating annularly with the plurality of first radially extending teeth, wherein the plurality of annular rouged-out teeth are formed coaxial with an axis of symmetry (A) of the annular collar, wherein the axis A coincides with an axis of symmetry (B) of the wheel hub; and calibrating the plurality of annular roughed-out teeth with a shaping tool, the shaping tool comprising a pressing head comprising a plurality of annular calibration teeth, wherein calibrating the plurality of annular roughed-out teeth comprises: pressing the shaping tool against the plurality of annular roughed-out teeth of the annular collar with a predetermined axial force (F), thereby engaging the plurality of annular calibration teeth with the plurality of annular roughed-out teeth to form the plurality of finished teeth, wherein the pressing head is coaxial with the axis (A) when pressed against the annular collar; wherein the plurality of annular calibration teeth of the pressing head comprise: a plurality of second radial teeth arranged annularly; and a plurality of second radial concavities alternating annularly with the plurality of second radial teeth, the plurality of second radial concavities delimited by a plurality of bottom walls, each bottom wall comprising a respective second rounded circumferential profile, wherein the plurality of finished teeth comprise: a plurality of third radially extending teeth comprising a plurality of ridges comprising a respective first rounded circumferential profile; and a plurality of third concavities alternating annularly with the plurality of third radially extending teeth, wherein each respective first rounded circumferential profile is defined by each respective second rounded circumferential profile. 2. The method of claim 1 , wherein the plurality of first radially extending teeth comprise a flat circumferential profile. 3. The method of claim 2 , wherein each of the plurality of first radial concavities comprise a respective third rounded circumferential profile identical to each respective first rounded circumferential profile. 4. The method of claim 3 , wherein, the first radially extending teeth comprise a metal material, and pressing the shaping tool against the plurality of annular roughed-out face teeth causes at least a portion of the metal material of the first radially extending teeth to flow into the plurality of second radial concavities of the plurality of annular calibration teeth of the pressing head. 5. The method of claim 2 , wherein the plurality of second radial teeth comprise a plurality of ridges, wherein each ridge comprises a flat circumferential profile. 6. The method of claim 1 , wherein, the first radially extending teeth comprise a metal material, and pressing the shaping tool against the plurality of annular roughed-out teeth causes at least a portion of the metal material of the first radially extending teeth to flow into the plurality of second radial concavities of the plurality of annular calibration teeth of the pressing head. 7. The method of claim 1 , wherein the plurality of second radial teeth comprise a flat circumferential profile. 8. The method of claim 7 , wherein the plurality of second radial teeth comprise an axial height less than an axial height of the plurality of first radially extending teeth. 9. The method of claim 1 , wherein the pressing head is idly supported by the shaping tool such that the pressing head rotates about axis (A) with respect to the annular roughed-out face teeth. 10. The method of claim 1 , wherein the predetermined axial force (F) is parallel to the axis (A). 11. The method of claim 1 , wherein the shaping tool further comprises: a plate; a shaft extending axially from the plate; and a rolling bearing mounting the pressing head on the shaft. 12. The method of claim 1 , wherein an axial height of the plurality of second radial teeth is equal to an axial depth of the plurality of third radial concavities. 13. A shaping tool comprising: a plate; a shaft extending axially from the plate; a rolling bearing connected to the shaft; and a pressing head mounted on the shaft by means of the rolling bearing, the pressing head comprising a plurality of annular calibration teeth, the plurality of annular calibration teeth comprising: a plurality of radial teeth arranged annularly about an axis of symmetry (A) of the shaping tool; a plurality of radial concavities alternating annularly with the plurality of radial teeth, wherein each of the plurality of radial concavities is delimited by a plurality of bottom walls having a firs rounded circumferential profile. 14. The shaping tool of claim 13 , wherein the pressing head is rotatable about the axis (A) relative to the shaping tool and is configured to be rotatable about an annular collar of an inner ring of a bearing unit. 15. The shaping tool of claim 13 , wherein the plurality of radial teeth of the annular calibration teeth are configured to: press against respective opposite flanks of an adjacent plurality of radial teeth of a plurality of annular roughed-out teeth of an annular collar comprising a metal material, and cause the metal material of the plurality of annular roughed-out teeth flow into the plurality of radial concavities of the plurality of annular calibration teeth and against each of the plurality of bottom walls. 16. The shaping tool of claim 13 , wherein the plurality of radial teeth comprise a plurality of ridges, wherein each ridge of the plurality of ridges comprise a flat circumferential profile. 17. The shaping tool of claim 16 , wherein the plurality of ridges of the plurality of radial teeth of the annular calibration teeth comprise an axial height that is less than an axial height of a plurality of finished radial concavities of a plurality of finished face teeth. 18. A method for obtaining a finished face teeth on an inner ring of a wheel hub, the finished face teeth comprising a plurality of finished radial teeth having ridges with a first rounded circumferential profile and a plurality of concavities, the plurality of finished radial teeth alternating with the plurality of finished concavities, the inner ring being provided with an annular collar at a first extremity of the inner ring, the annular collar having a predetermined radial profile, the method comprising: forming, on the annular collar, annular roughed-out face teeth, the annular rouged-out face teeth formed coaxial with an axis of symmetry (A) of the annular collar, wherein the axis (A) coincides with an axis of symmetry (B) of the wheel hub, the annular roughed out face teeth comprising: a plurality of first radial teeth having ridges and arranged annularly, and a plurality of first radial concavities alternating annularly with the plurality of first radial teeth; and calibrating the annular roughed-out face teeth with a shaping tool, the shaping tool comprising a pressing head having an annular calibration facing teeth, wherein the shaping tool is pressed against the annular roughed-out face teeth of the annular collar with a predetermined axial force (F), engaging the annular calibration facing teeth with the annular roughed-out face teeth to form the finished face teeth, wherein t