Sealing device, in particular for wheel hubs of motor bikes

The invention claimed is: 1. A sealing device insertable between a first and a second member relatively rotatable with respect to each other about an axis coinciding with an axis of symmetry of the sealing device between a wheel hub and a respective support pin of a motor bike wheel or a spacer assembled on the respective support pin, comprising: an annular reinforcing insert restrainable in an angularly integral and fluid-tight manner to the first member; and an annular sealing element made of an elastomeric material and having at least one annular lip being elastically deformable and adapted to fluid-tightly cooperate with a radial side surface of the second member, the at least one annular lip extending radially and overhangingly from the annular reinforcing insert up to a first radial position; and i) an annular chamber defined by the annular reinforcing insert and arranged directly adjacent in the axial direction to the annular sealing element; and ii) a shield mounted in the annular chamber and having a first radial end and a second radial end opposite of the first radial end; the first radial end extending up to a second radial position that is axially spaced from the first radial position of the at least one annular lip, wherein the first radial end is configured to cooperate with the radial side surface of the second member, the first radial end configured to be coupled in a forced manner to the second member to restrain the shield in an angularly integral manner to the second member; and the second radial end facing the annular reinforcing insert and cooperating with the annular reinforcing insert and with the annular sealing element to create within the annular chamber a labyrinth seal interposed between the at least one annular lip and an environment external to the first and second member; and wherein iii) the shield is mounted in the annular chamber in a floating manner, with both radial and axial play; and iv) the annular reinforcing insert is made of a plastically deformable metal material and provides a sleeve portion and a flange portion which extends radially and overhangingly from a first end of the sleeve portion, wherein the at least one annular lip extends from the flange portion on a side opposite of the sleeve portion; the annular chamber being delimited between the flange portion and a second end of the sleeve portion that is opposite the first end of the sleeve portion, wherein the second end of the sleeve portion extends radially inwardly such that the sleeve portion forms an L-shape, and such that the annular chamber extends in the radial direction along only a part of the annular sealing element; and wherein v) in a radial cross-section of the shield, the second radial end is delimited by a radial surface extending parallel to the axis of symmetry and by a pair of opposite front radial surfaces perpendicular to the axis of symmetry, each of the front radial surfaces having, at a radial middle portion thereof, a respective annular ridge extending axially and overhanging from their respective front radial surface. 2. The device according to claim 1 , wherein the shield is made of a material stiffer than the elastomeric material by which the at least one annular lip is made and, preferably, of a synthetic plastic material. 3. The device according to claim 1 , wherein the first radial end of the shield extends radially and overhangingly out from the annular chamber. 4. The device according to claim 1 , wherein the annular chamber is engaged only by the second radial end of the shield, wherein a central connection portion of the shield extends between the first and the second radial ends of the shield, wherein the central connection portion faces the annular sealing element and is radially aligned with the second end of the sleeve portion, and wherein the first radial end faces and is axially aligned with the at least one annular lip. 5. The device according to claim 1 , wherein each of the respective annular ridges has an arc-of-circle profile in the radial cross-section of the shield. 6. The device according to claim 1 , wherein each of the respective annular ridges extend facing and cooperating with the second end of the sleeve portion of the annular reinforcing insert and a portion of the annular sealing element that extends upon the flange portion of the annular reinforcing insert in a direction towards the annular chamber such that the portion of the annular sealing element at least partially covers the flange portion, the portion of the annular sealing element and the radial surface of the second radial end of the shield cooperating to form a part of the labyrinth seal in the annular chamber. 7. The device according to claim 1 , wherein the first radial end of the shield is shaped as a truncated cone shaped funnel, having a conicity thereof facing the at least one annular lip. 8. The device according to claim 1 , wherein the annular sealing element is made of a low friction coefficient polymer, the annular sealing element extending towards the sleeve portion and inside an annular step obtained on the sleeve portion, the annular step radially located on a side of the sleeve portion opposite of the flange portion and in correspondence with the same so as to exert a static seal on the first member. 9. A wheel hub having a wheel support pin and coupling, the wheel support pin including a spacer mounted thereon, comprising: a rolling bearing and at least one sealing device having; an annular reinforcing insert restrainable in an angularly integral and fluid-tight manner to the wheel hub; and an annular sealing element made of an elastomeric material and having at least one annular lip being elastically deformable and adapted to fluid-tightly cooperate with a radial side surface of the spacer, the at least one annular lip extending radially and overhangingly from the annular reinforcing insert up to a first radial position; and i) an annular chamber defined by the annular reinforcing insert and arranged directly adjacent in the axial direction to the annular sealing element; and ii) a shield mounted in the annular chamber and having a first radial end and a second radial end opposite of the first radial end; the first radial end extending up to a second radial position that is axially spaced from the first radial position of the at least one annular lip, wherein the first radial end is configured to cooperate with the radial side surface of the spacer, the first radial end configured to be coupled in a forced manner to the spacer to restrain the shield in an angularly integral manner to the spacer; and the second radial end facing the annular reinforcing insert and cooperating with the annular reinforcing insert and with the annular sealing element to create within the annular chamber a labyrinth seal interposed between the at least one annular lip and an environment external to the wheel hub and the spacer; and wherein iii) the shield is mounted in the annular chamber in a floating manner, with both radial and axial play; and iv) the annular reinforcing insert is made of a plastically deformable metal material and provides a sleeve portion and a flange portion which extends radially and overhangingly from a first end of the sleeve portion, wherein the at least one annular lip extends from the flange portion on a side opposite of the sleeve portion; the annular chamber being delimited between the flange portion and a second end of the sleeve portion that is opposite the first end of the sleeve portion, wherein the second end of the sleeve portion extends radially inwardly such that the sleeve portion forms an L-shape, and such that the annular chamber extends in the radial direction along only a part of the annular