Turbine engine drive shaft device

The invention claimed is: 1. A turbine engine drive shaft device comprising: a shaft; a circular casing; a circular ferrule encompassing the casing; a hollow radial arm connecting the casing to the ferrule and traversed by the shaft, also extending into the casing; a shaft support bearing mounted on a supporting member secured on the casing; the radial arm being assembled with the casing without being integral therewith, the radial arm including a boss including a borehole; and further comprising a sleeve to couple the arm with the casing, the boss and the sleeve are assembled by engaging into each other, the shaft extends through the boss and the sleeve, a seal creates tightness between the sleeve and the boss, and the bearing is mounted in the sleeve, wherein the bearing is held against opposite shoulders of the sleeve and the shaft by nuts respectively screwed on the shaft and in the sleeve. 2. A turbine engine drive shaft device according to claim 1 , wherein the sleeve is integral with the casing. 3. A turbine engine drive shaft device according to claim 1 , wherein the sleeve is assembled with a boss of the casing, the boss of the casing including a borehole through which the shaft extends, the boss of the casing and the sleeve are engaged into each other, and a seal creates tightness between the sleeve and the boss of the casing. 4. A turbine engine drive shaft device according to claim 1 , wherein the radial arm is also assembled with the ferrule without being integral therewith, the radial arm and the ferrule comprise further bosses including extending boreholes, and further comprising a coupling sleeve, connecting the ferrule to the arm while being engaged in the boreholes of the further bosses, and further seals creating tightness between the further sleeve and each of the boreholes of the further bosses, the shaft passing through the further sleeve. 5. A turbine engine drive shaft device according to claim 1 , wherein the sleeve extends through the casing from an outer radius to an inner radius, and the casing comprises a second bored boss extending from the boss, the sleeve being inserted through the bosses, a seal being arranged between the second boss and the sleeve. 6. A turbine engine drive shaft device according to claim 1 , wherein the casing includes a casing sleeve integral therewith and extending from the borehole of the boss of the casing and a borehole of a second boss, the boss and the second boss being at an outer radius and at an inner radius of the casing, and the sleeve is inserted into the casing sleeve. 7. A turbine engine drive shaft device according to claim 5 , wherein the casing is an intermediate casing separating two concentric gas flow passages, the radial arm passes through an outer secondary passage, and the second boss extends as far as a further radial arm traversing an inner primary passage. 8. A turbine engine drive shaft device according to claim 1 , further comprising a lubrication conduit created in the shaft, drilled holes traversing the shaft from the conduit to the bearing, and the shaft includes two parts joined by grooves, and drilled holes traverse the shaft from the conduit to a circular chamber where the grooves lead. 9. A turbine engine drive shaft device according to claim 1 , wherein the shaft is inclined in an axial direction of the turbine engine and the radial arm is also inclined in the axial direction, while being constantly adjacent to a rear edge of the radial arm. 10. A turbine engine comprising a device according to claim 1 . 11. An aircraft, comprising a turbine engine according to claim 10 .