Hub-bearing having a light alloy rotor-hub

The invention claimed is: 1. A hub-bearing assembly comprising: a bearing unit comprising a stationary radially outer ring, a couple of rotatable radially inner rings, and a double row of rolling elements, wherein the rolling elements are interposed between the radially outer ring and the radially inner rings, whose centers are located along a first circle having a first radius, with respect to a symmetry axis of the hub-bearing assembly; and a rotor-hub, rotatable and made of a light alloy, on top of which the radially inner rings are assembled, the rotor-hub comprising a tubular portion, to which is steadily fixed a flange portion, axially external and provided with a plurality of fixing holes, whose axes are located along a second circle having a second radius, with respect to the symmetry axis of the hub-bearing assembly, wherein the rotor-hub is angularly coupled to a bell of a constant velocity joint, from which the rotor-hub receives the driving torque, wherein the bell is a radially outer portion of the constant velocity joint and is co-axial and radially internal to the rotor-hub, wherein the first radius of the first circle of the centers of the rolling elements is greater than the second radius of the second circle of the axes of the fixing holes. 2. The hub-bearing assembly according to claim 1 , wherein the rotor-hub and the bell are angularly coupled by a milled coupling between a radially external cylindrical surface of the bell and a radially internal cylindrical surface of the tubular portion of the rotor-hub. 3. The hub-bearing assembly according to claim 1 , wherein the rotor-hub and the bell are angularly coupled by means of a coupling between a radially external conical surface of the bell and a radially internal conical surface of the tubular portion of the rotor-hub. 4. The hub-bearing assembly according to claim 1 , the bell further comprising a pre-formed edge, wherein the pre-formed edge is axially internal and configured to axially pre-load the couple of radially inner rings. 5. The hub-bearing assembly according to claim 1 , wherein a tubular portion of the radially outer ring comprises a cylindrical surface, the cylindrical surface is radially external and configured to be coupled to a cylindrical seat of a knuckle of a vehicle suspension. 6. A hub-bearing assembly comprising: a bearing unit comprising a stationary radially outer ring, a couple of rotatable radially inner rings, and a double row of rolling elements, wherein the rolling elements are interposed between the radially outer ring and the radially inner rings, whose centers are located along a first circle having a radius, with respect to a symmetry axis of the hub-bearing assembly; and a rotor-hub, rotatable and made of a light alloy, on top of which the radially inner rings are assembled, the rotor-hub comprising a tubular portion, to which is steadily fixed a flange portion, axially external and provided with a plurality of fixing holes, whose axes are located along a second circle having a radius, with respect to the symmetry axis of the hub-bearing assembly, wherein the radius of the first circle of the rolling elements centers is greater than the radius of the second circle of the fixing holes axes, and wherein the tubular portion of the rotor-hub is steadily fixed to a rolled edge, which is axially internal and configured to axially pre-load the couple of radially inner rings. 7. The hub-bearing assembly according to claim 6 , wherein the rotor-hub is angularly coupled to a bell of a constant velocity joint, the bell further comprising a pre-formed edge, which is axially internal and configured to cooperate with the rolled edge to axially pre-load the couple of radially inner rings.