Tool for fitting an inner bearing race carrying a bearing cage and screws for retaining in a turbomachine

The invention claimed is: 1. A tool for mounting an assembly comprising an inner bearing race, a bearing cage equipped with rollers, and screws for holding in a turbine engine, the race comprising a raceway for the rollers and, at its downstream end, an outer annular flange comprising orifices for the screws to pass, said tool comprising a first sectored cylindrical envelope configured to cover an upstream end part of the race and comprising means for axial holding on the race, a second sectored cylindrical envelope configured to cover the bearing cage and at least one downstream end part of the first envelope and to come into axial abutment on the screw heads of the flange, a cylindrical ring configured to at least partly surround the second envelope and comprising means for downstream axial abutment on this second envelope, and a locking annulus that is mounted on an upstream end part of the first envelope, between the ring and axial retaining means of this upstream end part, and which comprises means for downstream axial abutment on the ring and axial clamping of the second envelope between the bearing means of the ring and the screw heads of the flange. 2. The tool according to claim 1 , wherein the first envelope comprises, at its upstream end, claw teeth configured to engage with complementary claw teeth on the locking annulus so as firstly to allow axial mounting of the annulus on the upstream end part of the envelope and secondly to axially hold the annulus towards the upstream end when the annulus is rotated by a predetermined angle with respect to the first envelope. 3. The tool according to claim 1 , wherein the first envelope comprises at least one resilient seal configured to cooperate with the second envelope, and/or the second envelope carries at its downstream end a resilient annular seal configured to come into abutment on the screw heads. 4. The tool according to claim 1 , wherein the inner bearing race comprises, on an upstream end part, outer annular wipers of a labyrinth seal, the tool further comprises a protective annulus configured to surround these wipers, this annulus being surrounded by the first envelope and being locked axially on the race by this first envelope. 5. The tool according to claim 1 , wherein the first envelope comprises an upstream-oriented annular groove configured for receiving a downstream-oriented cylindrical rim of the second envelope. 6. The tool according to claim 1 , wherein the ring comprises at its upstream end an inner annular rim configured to be interposed between the upstream end of the second envelope and the locking annulus. 7. The tool according to claim 1 , wherein the locking annulus comprises threaded axial orifices configured for mounting screws, the free ends of which are configured to bear axially towards the downstream end on the ring, the clamping of the screws urging the ring downstream and causing the clamping of the second envelope between the ring and the screw heads. 8. The tool according to claim 1 , which comprises a base configured for supporting the aforementioned assembly and for assembling the various parts of the tool, this base comprising an annular surface that is configured to serve as an abutment for the flange of the race and which comprises orifices for the screws of this flange to pass. 9. A method for mounting an assembly comprising an inner bearing race, a cage, and bearing rollers and screws for holding in a turbine engine, by means of a tool according to claim 1 , said method comprising: mounting the first-envelope sectors on the race; mounting the second-envelope sectors on the race and the first envelope; engaging the ring on the second envelope; engaging the locking annulus on the first envelope; axially clamping the second envelope between the ring and the screw heads; engaging the tool and the race on a turbine-engine shaft by axial translation from the upstream end until it comes into axial abutment on an annular surface of this shaft and so that the screws carried by the race flange pass through the orifices in this surface; screwing nuts onto the free ends of the screws; removing the tool. 10. The tool according to claim 7 , wherein the locking annulus includes means for gripping the tool. 11. The tool according to claim 7 , wherein said means for gripping the tool includes two handles diametrically opposed with respect to the longitudinal axis of the tool. 12. The method according to claim 9 , wherein said engaging the locking annulus on the first envelope includes axial translation towards the first envelope and then a rotation by a predetermined angle about the longitudinal axis of the tool. 13. The method according to claim 9 , further comprising, before said mounting the first-envelope sectors on the race, placing the aforementioned assembly vertically on the supporting base so that the screws of the flange pass through the orifices in the base; and engaging the protective annulus on the wipers of the race. 14. The method according to claim 9 , further comprising, after axially clamping the second envelope between the ring and the screw heads, heating the aforementioned assembly, either by putting the race and the tool and its base in an oven, or by induction by means of an element that passes axially through the tool and the race and passes through a central orifice in the base; and removing the tool from its base.