Setting mechanism for timepiece movement

What is claimed is: 1. A setting mechanism for a timepiece movement, including: a setting gear train, a winder rod adapted to be moved from a first axial position termed a running position to a second axial position termed a setting position, a sliding pinion adapted to be moved from a first axial position in which the sliding pinion is disengaged from the setting gear train to a second axial position in which the sliding pinion meshes with the setting gear train, a lever interengaged with the sliding pinion and adapted to pivot, when the winding rod is moved from a running position to a setting position and vice versa, in order to move the sliding pinion from the first axial position to the second and vice versa, and a device for immobilizing the setting gear train, wherein the immobilizing device includes first and second immobilizing arms and an immobilizing wheel interengaged with the setting gear train, the first and second immobilizing arms being adapted to the interengaged with the immobilizing wheel in a configuration termed locked in which the setting gear train is immobilized and to be disengaged from the immobilizing wheel in a configuration termed unlocked in which the sliding pinion is free from meshing with the setting gear train, the immobilizing device including to this end a locking/unlocking lever interengaged with the sliding pinion and adapted to cooperate with the first and second immobilizing arms in order to pass from the locked configuration to the unlocked configuration and vice versa when the winding rod is moved from a running position to a setting position and vice versa. 2. The mechanism according to claim 1 , wherein the immobilizing wheel includes teeth in which a tip of each tooth has a curved profile and wherein the first and second immobilizing arms each include a portion having a curved edge provided with microteeth, a radius of curvature of the curved edge essentially corresponding to the radius of the tip circle of the immobilizing wheel. 3. The mechanism according to claim 2 , wherein the microteeth of the first and second immobilizing arms are arranged against the teeth of the immobilizing wheel in the locked configuration and are symmetrical to one another so as to prevent rotation of the immobilizing wheel in either direction. 4. The mechanism according to claim 1 , wherein the first and second immobilizing arms are superposed and mounted to pivot relative to one another about a common axis, the curved edge of the lower immobilizing arm, respectively the upper immobilizing arm, being intended to come into contact with a lower portion, respectively an upper portion, of the teeth of the immobilizing wheel. 5. The mechanism according to claim 1 , wherein the locking/unlocking lever is adapted to pivot about a pivot when the winding rod is moved from a running position to a setting position and vice versa, and includes two arms extending on either side of the pivot, one end of one of the two arms being interengaged with the sliding pinion whilst the other of the two arms includes a distal portion intended to cooperate with the upper immobilizing arm and a proximal portion intended to cooperate with the lower immobilizing arm. 6. The mechanism according to claim 5 , wherein the distal portion bears against a rectilinear flank of the upper immobilizing arm and wherein the proximal portion bears against or is intended to come to bear against an actuating element of the lower immobilizing arm in order to disengage the immobilizing arm from the teeth of the immobilizing wheel when the locking/unlocking lever is pivoted by the axial movement of the sliding pinion. 7. The mechanism according to claim 1 , wherein the immobilizing wheel is the time at wheel of the setting gear train. 8. The mechanism according to claim 1 , wherein the immobilizing wheel is mounted on and fastened to the shaft of a standard timer wheel of the setting gear train. 9. A timepiece movement including the mechanism according to claim 1 . 10. The timepiece including the timepiece movement according to claim 9 .