Variable spacing flange pulley for variable-speed drive

The invention claimed is: 1. A pulley comprising: a shaft; a fixed shroud mounted to be unable to move longitudinally with respect to the shaft; a movable shroud mounted to be driven in rotation by the shaft but configured to move longitudinally with respect to the shaft; a casing including a peripheral wall; and a mechanism configured to mechanically control the longitudinal movement of the movable shroud with respect to the shaft, the mechanism comprising a first assembly mounted on the shaft and driven in rotation by the shaft, a second assembly mounted on the shaft by at least one torsion spring housing in the casing such that the relative angular position of the second assembly with respect to the shaft depends on the torque transmitted by the shaft, and a locking system configured to lock in at least one position, the locking system being provided between the first assembly and the second assembly, the locking system comprising a radially extending finger and a hole defined in the peripheral wall of the casing, the radially extending finger being configured to project into the hole. 2. The pulley as claimed in claim 1 , wherein the radially extending finger is configured to move between a first position in which the finger is located entirely inside the peripheral wall and a second position in which the finger projects into the hole defined in the peripheral wall. 3. The pulley as claimed in claim 2 , further comprising a controlled peg configured to push the finger back into the peripheral wall. 4. The pulley as claimed in claim 1 , wherein relative rotational movement of the second assembly with respect to the shaft is within a predetermined angular range, and wherein the first assembly and the second assembly are locked together when the second assembly is substantially in a position corresponding to one end of said predetermined angular range. 5. The pulley as claimed in claim 1 , further comprising at least two movable catches that are articulated about an axis disposed in a plane transverse to the shaft, the angular position of the at least two movable catches about the axis thereof is given by the angular position of the second assembly with respect to the shaft, and wherein a flyweight is respectively guided to be in contact, on one side, with a respective of the movable catches and, on the other side, with the face of the movable shroud that faces away from the fixed shroud. 6. The pulley as claimed in claim 5 , wherein the first assembly has a first cylindrical part that is mounted on the shaft and has, on an outer face thereof, facing away from the shaft, at least one helical groove, an end wall, and an outer peripheral wall, wherein the second assembly has a plate configured such that the end wall, the outer peripheral wall, and the plate form a housing to accommodate the at least one torsion spring, and wherein said pulley has an intermediate assembly with a second cylindrical part that is mounted at least partially around the first cylindrical part and has a peg engaged in the helical groove, said second cylindrical part being mounted to slide in translation parallel to the shaft. 7. The pulley as claimed in claim 6 , wherein each of the at least two movable catches has a hinge pin configured to articulate with respect to the plate, each of the movable catches being guided radially in translation with respect to the second cylindrical part. 8. The pulley as claimed in claim 5 , wherein the first assembly has a first cylindrical part mounted on the shaft, and a plate mounted on the cylindrical part, and wherein the second assembly has a peripheral wall connected directly or indirectly to the shaft by the at least one torsion spring, said peripheral wall covering the plate of the first assembly. 9. The pulley as claimed in claim 8 , wherein each of the at least one movable catch has a hinge pin configured to articulate relative to the plate, and an arm extending into a helical groove made in the peripheral wall of the second assembly. 10. A belt speed variator comprising: two pulleys mounted on parallel shafts, wherein one of the pulleys is the pulley as claimed in claim 1 . 11. The pulley as claimed in claim 2 , wherein relative rotational movement of the second assembly with respect to the shaft is within a predetermined angular range, and wherein the first assembly and the second assembly are locked together when the second assembly is substantially in a position corresponding to one end of said predetermined angular range. 12. The pulley as claimed in claim 3 , wherein relative rotational movement of the second assembly with respect to the shaft is within a predetermined angular range, and wherein the first assembly and the second assembly are locked together when the second assembly is substantially in a position corresponding to one end of said predetermined angular range. 13. The pulley as claimed in claim 2 , further comprising at least two movable catches that are articulated about an axis disposed in a plane transverse to the shaft, the angular position of the at least two movable catches about the axis thereof is given by the angular position of the second assembly with respect to the shaft, and wherein a flyweight is respectively guided to be in contact, on one side, with a respective of the movable catches and, on the other side, with the face of the movable shroud that faces away from the fixed shroud. 14. The pulley as claimed in claim 3 , further comprising at least two movable catches that are articulated about an axis disposed in a plane transverse to the shaft, the angular position of the at least two movable catches about the axis thereof is given by the angular position of the second assembly with respect to the shaft, and wherein a flyweight is respectively guided to be in contact, on one side, with a respective of the movable catches and, on the other side, with the face of the movable shroud that faces away from the fixed shroud. 15. The pulley as claimed in claim 4 , further comprising at least two movable catches that are articulated about an axis disposed in a plane transverse to the shaft, the angular position of the at least two movable catches about the axis thereof is given by the angular position of the second assembly with respect to the shaft, and wherein a flyweight is respectively guided to be in contact, on one side, with a respective of the movable catches and, on the other side, with the face of the movable shroud that faces away from the fixed shroud. 16. The pulley as claimed in claim 1 , wherein the first assembly has a first cylindrical part that is mounted on the shaft and has, on an outer face thereof, facing away from the shaft, at least one helical groove, an end wall, and an outer peripheral wall, wherein the second assembly has a plate configured such that the end wall, the outer peripheral wall, and the plate form a housing to accommodate the at least one torsion spring, and wherein said pulley has an intermediate assembly with a second cylindrical part that is mounted at least partially around the first cylindrical part and has a peg engaged in the helical groove, said second cylindrical part being mounted to slide in translation parallel to the shaft. 17. The pulley as claimed in claim 2 , wherein the first assembly has a first cylindrical part that is mounted on the shaft and has, on an outer face thereof, facing away from the shaft, at least one helical groove, an end wall, and an outer peripheral wall, wherein the second assembly has a plate configur