Axlebox for a railway vehicle bogie and railway bogie equipped with such an axlebox

What is claimed is: 1. An axlebox of railway vehicle bogie comprising: a housing; a cylindrical roller bearing unit having a stationary outer ring mounted in a bore of the housing, a rotating inner ring dedicated to be fixed to an axial end of a rotating bogie axle, an annular rolling chamber radially defined between the inner ring and the outer ring, the rolling chamber being axially closed by sealing arrangement, and at least one row of cylindrical rollers mounted in the rolling chamber radially between the inner ring and the outer ring and axially between a front sealing arrangement and a rear sealing arrangement, the inner ring comprising two steps able to axially block the rollers, such as the axial length between the two steps is larger than the rollers axial length to allow relative axial displacement of the rollers with respect to the inner ring; an end cap fixed to the rotating bogie axle and having a radial flange defined to axially contact a front end of the inner ring of the bearing unit; an annular backing ring axially mounted between a step of the bogie axle and a rear end of the inner ring of the bearing unit; a front cover fixed to a front side of the housing and comprising a cover portion with an annular axial flange defined to axially contact a front end of the outer ring of the bearing unit, the axial flange being mounted in the bore of the housing; a rear cover fixed to a rear side of the housing and comprising an annular axial flange defined to axially contact a rear end of the outer ring of the bearing unit, the axial flange being mounted in the bore of the housing; an annular front chamber defined between the bearing unit, a portion of the radial flange of the end cap, and the axial flange of the front cover, the front chamber being able to receive a portion of the bearing unit, in case of relative axial displacement between the bogie axle and the housing in a first axial direction; an annular rear chamber defined between the bearing unit, a radial portion of the backing ring, and the axial flange of the rear cover, the rear chamber being able to receive a portion of the bearing unit, in case of relative axial displacement between the bogie axle and the housing in a second axial direction; the housing comprises at least one through channel with a first opening in the bore of housing beyond a front end of the outer ring and a second opening in the bore of housing beyond a rear end of the outer ring; at least one radial through hole extending through the axial flange of the front cover; and at least one radial through hole extending through the axial flange of the rear cover, wherein the rear chamber and the front chamber are in fluidic connection through the at least one radial through hole of the rear cover, the at least one channel of the housing, and the at least one radial through hole of the front cover. 2. The axlebox according to claim 1 , wherein the annular rear chamber is defined between the rear sealing arrangement, the radial portion of the backing ring, and the axial flange of the rear cover, the rear chamber being able to receive the portion of the rear sealing arrangement, in case of relative axial displacement between the bogie axle and the housing in a second axial direction. 3. The axlebox according to claim 1 , wherein the annular front chamber is defined between the front sealing arrangement, the portion of the radial flange of the end cap, and the axial flange of the front cover, the front chamber being able to receive a portion of the front sealing arrangement, in case of relative axial displacement between the bogie axle and the housing in a first axial direction. 4. The axlebox according to claim 1 , wherein sealing arrangement of the cylindrical roller bearing unit are shields fixed to the outer ring and forming a labyrinth seal with the inner ring. 5. The axlebox according to claim 1 , wherein the at least one channel through the housing of the axlebox consists in at least one axial groove in the bore of the housing that axially extends along the outer ring, beyond a front end of the outer ring and beyond a rear end of the outer ring. 6. The axlebox according to claim 5 , wherein the at least one axial groove extends along the whole axial length of the bore of the housing. 7. The axlebox according to claim 5 , wherein the at least one axial groove is provided out of the loaded zone on the bearing unit. 8. The axlebox according to claim 1 , wherein the axial flange of the front cover comprises an outer cylindrical surface provided with an annular groove, the at least one radial through hole being open to the annular groove. 9. The axlebox according to claim 1 , wherein the axial flange of the rear cover comprises an outer cylindrical surface provided with an annular groove, the at least one radial through hole being open to the annular groove. 10. The axlebox according to claim 1 , wherein the axial flange of the front cover comprises a plurality of radial through holes that are circumferentially equally spaced. 11. The axlebox according to claim 1 , wherein the axial flange of the rear cover comprises a plurality of radial through holes that are circumferentially equally spaced. 12. A Railway bogie comprising: a bogie frame; a wheel set having rotatable bogie axles; and at least one axlebox, each axlebox comprising: a housing; a cylindrical roller bearing unit having a stationary outer ring mounted in a bore of the housing, a rotating inner ring dedicated to be fixed to an axial end of a rotating bogie axle, an annular rolling chamber radially defined between the inner ring and the outer ring, the rolling chamber being axially closed by sealing arrangement, and at least one row of cylindrical rollers mounted in the rolling chamber radially between the inner ring and the outer ring and axially between a front sealing arrangement and a rear sealing arrangement, the inner ring comprising two steps able to axially block the rollers, such as the axial length between the two steps is larger than the rollers axial length to allow relative axial displacement of the rollers with respect to the inner ring; an end cap fixed to the rotating bogie axle and having a radial flange defined to axially contact a front end of the inner ring of the bearing unit, an annular backing ring axially mounted between a step of the bogie axle and a rear end of the inner ring of the bearing unit; a front cover fixed to a front side of the housing and comprising a cover portion with an annular axial flange defined to axially contact a front end of the outer ring of the bearing unit, the axial flange being mounted in the bore of the housing; a rear cover fixed to a rear side of the housing and comprising an annular axial flange defined to axially contact a rear end of the outer ring of the bearing unit, the axial flange being mounted in the bore of the housing; an annular front chamber defined between the bearing unit, a portion of the radial flange of the end cap, and the axial flange of the front cover, the front chamber being able to receive a portion of the bearing unit, in case of relative axial displacement between the bogie axle and the housing in a first axial direction; an annular rear chamber defined between the bearing unit, a radial portion of the backing ring, and the axial flange of the rear cover, the rear chamber being able to receive a portion of the bearing unit, in case of relative axial displacement between the bogie axle and the housing in a second axial direction; the housing comprises at least one through channel with a first opening in the bore of housing beyond a front end of the outer ring and a second opening in the bore