Backing ring assembly for railway axles

We claim: 1 . A support ring assembly for a railway axle configured to be coupled, during use, on a shaft end of the railway axle and to act as a shoulder for a rolling bearing mounted on the shaft end, the support ring assembly comprising: a support ring configured to be coupled, during use, in an axially abutting manner between the rolling bearing and a collar of the railway axle, the support ring comprising: a first axial end provided radially on an inside of a first annular cup-shaped seat, wherein, the first annular cup-shaped seat is defined by a side wall surface of the support ring facing radially inward and by a flat annular end wall, wherein, the side wall surface and the collar define between them a radial clearance (G) when fitted during use, and wherein, the annular end wall is configured to come into axial abutment with the collar during use; an annular insert interference-fitted into the first seat, the annular insert comprising: a substantially rigid annular shield engaged integrally inside the first seat in contact with the support ring and configured to remain out of contact with the collar; and an annular element made of an elastomeric material configured to be mounted integrally as one piece on the annular shield at least partially radially on an inside of the annular shield, wherein, the annular element is configured to be interposed during use between the annular shield and a radially external side surface of the collar and to engage with the collar, so as to occupy the radial clearance (G), and wherein, the annular element provides a static hydraulic sealing action to the support ring assembly. 2 . The support ring assembly of claim 1 , wherein the annular element is configured to have an elasto-plastic behavior. 3 . A support ring assembly for a railway axle configured to be coupled, during use, on a shaft end of the railway axle and to act as a shoulder for a rolling bearing mounted on the shaft end, the support ring assembly comprising: a support ring configured to be coupled, during use, in an axially abutting manner between the rolling bearing and a collar of the railway axle, the support ring comprising: a first axial end provided radially on an inside of a first annular cup-shaped seat, wherein, the first annular cup-shaped seat is defined by a side wall surface of the support ring facing radially inward and by a flat annular end wall, wherein, the side wall surface and the collar define between them a radial clearance (G) when fitted during use, and wherein, the annular end wall is configured to come into axial abutment with the collar during use; an annular insert interference-fitted into the first seat, the annular insert comprising: a substantially rigid annular shield engaged integrally inside the first seat; and an annular element made of an elastomeric material configured to be mounted integrally as one piece on the annular shield at least partially radially on an inside of the annular shield, wherein, the annular element is configured to be interposed during use between the annular shield and a radially external side surface of the collar and to engage with the collar, so as to occupy the radial clearance (G), and wherein, the annular element provides a static hydraulic sealing action to the support ring assembly, wherein the annular shield is made of a metal sheet and comprises: a sleeve portion force fitted inside the first seat and engaged in contact with the side wall surface of the first seat; and a flange portion extending radially in a cantilever fashion and an outside of the sleeve portion at a first end of the support ring, wherein the flange portion is engaged in axial abutment against a first axial face of the first end of the support ring. 4 . The support ring assembly of claim 3 , wherein, the annular element covers at least a majority of a radially inner side surface of the sleeve portion and extends over at least part of a front face of the flange portion facing away from a front face of the first end of the support ring, and wherein, the annular element is fixed integrally as one piece with the sleeve portion and the flange portion of the annular shield by means of bonding due to vulcanization. 5 . The support ring assembly of claim 4 , wherein the annular element further comprises: a bevel facing away from the flange portion and extending until flush with a radially inner annular surface of the annular element, wherein the bevel is provided on at least a portion of the front face of the flange portion. 6 . The support ring assembly of claim 5 , wherein the annular element further comprises: a radially inner annular surface facing the collar and provided with at least two annular protuberances configured to contact the collar. 7 . The support ring assembly of claim 6 , wherein the annular protuberances comprise a curved radial profile with a radius of curvature (R), wherein the annular protuberances are configured to ensure a residual interference with the collar and create a seal between the support ring and the collar. 8 . The support ring assembly of claim 7 , wherein the radially inner annular surface of the annular element further comprises: two distal cylindrical end sections, each section adjacent to a respective annular protuberance of the at least two annular protuberances; and at least one central section interposed between the at least two annular protuberances and arranged flush with the two distal cylindrical end sections, wherein the at least one central section has a curved radial profile defined by a second radius (R 1 ). 9 . The support ring assembly of claim 8 , wherein the annular protuberances are axially spaced by a constant pitch (P), wherein a ratio of the first radius of curvature (R) and the pitch (P) is 1:3. 10 . The support ring assembly of claim 9 , wherein the annular element is configured to have an elasto-plastic behavior. 11 . The support ring assembly of claim 6 , wherein the annular element is configured to have an elasto-plastic behavior. 12 . The support ring assembly of claim 5 , wherein the support ring further comprises: a flanged second axial end axially opposite the first end, extending radially on an outside of a radially outer side surface of the first axial end, the second axial end comprising a second annular seat defined by an annular front groove; and an annular spacer made of a synthetic plastic material having a substantially Z-shaped radial cross-section and a radially outer edge, wherein the radially outer edge snap engages inside the second annular seat and is configured to remain interposed between the support ring and the rolling bearing. 13 . The support ring assembly of claim 3 , wherein the annular element further comprises: a radially inner annular surface facing the collar and provided with at least two annular protuberances configured to contact the collar. 14 . The support ring assembly of claim 13 , wherein the annular protuberances have a curved radial profile with a radius of curvature (R), wherein the annular protuberances are configured to ensure a residual interference with the collar and create a seal between the support ring and the collar. 15 . The support ring assembly of claim 14 , wherein the radially inner annular surface of the annular element further comprises: two distal cylindrical end sections, each section adjacent to a respective annular protuberance of the at least two annular protuberances; and at least one central section interposed between the at least two annular protuberances and arranged