Wheel hub assembly provided with an innovative deflector

We claim: 1. A wheel hub assembly for motor vehicles comprising: a stationary first hub, a rotatable second hub, and a bearing unit comprising: a radially outer ring provided with respective radially outer raceways and mounted on the rotatable second hub, at least one radially inner ring provided with respective radially internal raceways and mounted on the stationary first hub, at least one row of rolling bodies, positioned between the corresponding internal and external raceways, at least one sealing device, positioned on the axially inner side with respect to the at least one row of rolling bodies, wherein on the second hub a metal deflector is mounted by interference and configured to allow water to drain and protect the area of the at least one sealing device from the external contaminant; and wherein the deflector comprises a first cylindrical shield configured to be mounted by interference on the second hub and radially aligned with the inner diameter of the radially outer ring, a second shield comprising a radially extending flange portion, connected to the first cylindrical shield and configured to provide the deflector with a stop surface against a surface of the radially outer ring, a third oblique shield, integrally connected to the second shield and a fourth shield, connected to the third shield, in an axially inner position with respect to the first shield, the second shield and the third shield. 2. The wheel hub assembly of claim 1 , wherein between the at least one sealing device and the first cylindrical shield of the deflector there is an axial clearance having a value greater than 1 mm. 3. The wheel hub assembly of claim 1 , wherein the inner diameter of the deflector is smaller than the outer diameter of the at least one sealing device. 4. The wheel hub assembly of claim 1 , wherein a portion of the surface on which the contact between the radially outer ring and the second shield of the deflector occurs has a radial development greater than or equal to 1 mm. 5. The wheel hub assembly of claim 1 , wherein a thickness of the shields of the deflector is between 0.5 and 1 mm, a radial interference is between 0.06 and 0.24 mm and a press-fitting length of the first cylindrical shield in the inner diameter of the radially outer ring has a value greater than or equal to 1.5 mm. 6. The wheel hub assembly of claim 1 , wherein the fourth shield is fixed in an axially inner position with respect to the other shields of the deflector, said position being obtained by axially distancing the fourth shield from the second shield by means of the third oblique shield. 7. The wheel hub assembly of claim 6 , wherein an access gate between the fourth shield and a flange portion of the first hub has an axial dimension of less than or equal to 1.0 mm. 8. The wheel hub assembly of claim 7 , wherein the access gate has an axial dimension of less than or equal to 0.5 mm. 9. A wheel hub assembly for motor vehicles comprising: a stationary hub, a rotatable hub, and a bearing unit comprising: a radially outer ring provided with respective radially outer raceways and mounted on the rotatable hub, at least one radially inner ring provided with respective radially internal raceways and mounted on the stationary rotatable hub, at least one row of rolling bodies, positioned between the corresponding internal and external raceways, at least one sealing device, positioned on an axially inner position with respect to the at least one row of rolling bodies, wherein on the rotatable hub a metal deflector is mounted by interference and configured to allow water to drain and protect the area of the at least one sealing device from the external contaminant, further wherein said deflector is mounted on a radially inner diameter of the rotatable hub, in an axially inner position with respect to the rotatable hub; and wherein said deflector comprises a first cylindrical shield configured to be mounted by interference on the second hub and radially aligned with the inner diameter of the radially outer ring, a second shield comprising a radially extending flange portion, connected to the first cylindrical shield and configured to provide the deflector with a stop surface against a surface of the radially outer ring, a third oblique shield, integrally connected to the second shield and a fourth shield, connected to the third shield, in an axially inner position with respect to the first shield, the second shield and the third shield. 10. The wheel hub assembly of claim 9 , wherein between the at least one sealing device and the first cylindrical shield of the deflector there is an axial clearance having a value greater than 1 mm. 11. The wheel hub assembly of claim 9 , wherein the inner diameter of the deflector is smaller than the outer diameter of the at least one sealing device. 12. The wheel hub assembly of claim 9 , wherein a portion of the surface on which the contact between the radially outer ring and the second shield of the deflector occurs has a radial development greater than or equal to 1 mm. 13. The wheel hub assembly of claim 9 , wherein a thickness of the shields of the deflector is between 0.5 and 1 mm, a radial interference is between 0.06 and 0.24 mm and a press-fitting length of the first cylindrical shield in the inner diameter of the radially outer ring has a value greater than or equal to 1.5 mm. 14. The wheel hub assembly of claim 9 , wherein the fourth shield is fixed in an axially inner position with respect to the other shields of the deflector, said position being obtained by axially distancing the fourth shield from the second shield by means of the third oblique shield. 15. A wheel hub assembly for motor vehicles, comprising: a stationary first hub, a rotatable second hub, and a bearing unit comprising: a radially outer ring provided with respective radially outer raceways and mounted on the rotatable second hub, at least one radially inner ring provided with respective radially internal raceways and mounted on the stationary first hub, at least one row of rolling bodies, positioned between the corresponding internal and external raceways, at least one sealing device, positioned on an axially inner position with respect to the at least one row of rolling bodies, wherein on the second hub a metal deflector is mounted by interference and configured to allow water to drain and protect the area of the at least one sealing device from the external contaminant, wherein said deflector comprises a first cylindrical shield configured to be mounted by interference on the second hub and radially aligned with the inner diameter of the radially outer ring, a second shield comprising a radially extending flange portion, connected to the first cylindrical shield and configured to provide the deflector with a stop surface against a surface of the radially outer ring, a third oblique shield, integrally connected to the second shield and a fourth shield, connected to the third shield, in an axially inner position with respect to the first shield, the second shield and the third shield, further wherein between the at least one sealing device and the first cylindrical shield of the deflector there is an axial clearance having a value greater than 1 mm, further wherein a portion of the surface on which the contact between the radially outer ring and the second shield of the deflector occurs has a radial development greater than or equal to 1 mm, further wherein a thickness of the shields of the deflector is between 0.5 and 1 mm, a radial interference is between 0.1 and 0.2 mm and a press-fitting length of the f