Hub-bearing unit with rotor hub

The invention claimed is: 1. A hub-bearing unit comprising: a rotatable hub, provided with a flange portion on an axially external longitudinal end, the flange portion being configured for the engagement with a rotatable element of a motor vehicle, the rotatable hub comprising a central tubular portion formed as a one piece component, a bearing unit having a stationary radial outer ring which forms an outer raceway having an outer raceway protrusion which extends radially inwardly from the outer ring, configured for the engagement with a fixed element of the motor vehicle, a first crown of axially external rolling bodies, a second crown of axially internal rolling bodies, interposed between the radially outer ring and the hub, the first crown of axially external rolling bodies being spaced from the second crown of axially internal rolling bodies by the outer raceway protrusion, the first crown of axially external rolling bodies and the second crown of axially external rolling bodies being located in a single groove in the central tubular portion, a surface of the groove extending axially between the first crown of axially external rolling bodies and the second crown of axially external rolling bodies so as not to form a protuberance therebetween, wherein the hub also assumes the function of the radially inner ring, which is formed by the single groove, of the bearing unit and the bell of a constant velocity joint, the stationary radial outer ring being a one piece member wherein the rolling center of the constant velocity joint is in a position axially internal with respect to the center of the axially inner crown of the rolling bodies, wherein the hub-bearing unit is further configured such that zero point five (0.5) is less than or equal to a ratio of P B to the sum of S and A and the ratio is also less than or equal to four (4), wherein P B is a pitch diameter of the crowns of the rolling bodies, S is an axial distance between the axially outer surface of the flange and the center of the axially outer crown of the rolling bodies, A is an axial distance between the centers of the crowns of the rolling bodies, first and second seals located adjacent axial ends of the outer ring, the first and second seals being completely axially overlapped by both the outer ring and the hub, a bushing rigidly connected to the flange portion of the hub such that the bushing centers the rotatable element of the motor vehicle, the bushing defining a central passageway which extends axially therethrough, and a protection cap located within the hub and configured to contain grease inside the constant velocity joint, the protection cap being attached to a radially inner surface of the hub, the protection cap is located axially between and is axially spaced from the bushing and the constant velocity joint. 2. The hub-bearing unit according to claim 1 , wherein an axial distance between the center of the axially inner crown of the rolling bodies and the rolling center of the constant velocity joint (L), a diameter of the rolling bodies (D B ) and a diameter of the balls of the constant velocity joint (D J ) are in accordance with the following relationship: 2 ⁢ L D B + D J ≤ 3. 3. The hub-bearing unit according to claim 2 , wherein the pitch diameter (P B ) of the crowns of the rolling bodies, the diameter (D B ) of the rolling bodies, the pitch diameter (P J ) of the constant velocity joint and the diameter (D J ) of the balls of the constant velocity joint are in accordance with the following relationship: 1 ≤ P B - D B P J + D J ≤ 2.5 . 4. The hub-bearing unit according to claim 2 , wherein the diameter (P CD ) of the circumference of the axes of axial holes for fixing the hub to the rotatable element of the motor vehicle and the pitch diameter (P B ) of the crowns of the rolling bodies are in accordance with the following relationship: 0.7 ≤ P CD P B ≤ 2.6 . 5. The hub-bearing unit according to claim 1 , wherein the bushing is configured to be made in a single piece with the hub. 6. The hub-bearing unit according to claim 1 , wherein the hub assumes a web structure with a stiffening portion discoid shaped which seals the volume which contains the constant velocity joint. 7. The hub-bearing unit according to claim 6 , wherein the stiffening portion is provided with one or more undercuts.