Device for manually controlling a mechanism for a timepiece

The invention claimed is: 1. A device for manually controlling a mechanism for a timepiece, comprising: two counteracting manual corrector actuators, arranged to be operated by a user and to control one and the same correction wheel set in opposing movements, each of the two manual corrector actuators setting in motion an associated corrector having a beak which is configured to bear against a relief of said correction wheel set and to cause said correction wheel set to move when said manual corrector actuator is moved over its full path of travel under the action of the user, said manual control device comprises a locking lever mechanism arranged to prohibit an action of one of the two manual corrector actuators on said correction wheel set when the other of the two manual corrector actuators is engaged and interacting with said correction wheel set, wherein said locking lever mechanism comprises a locking lever configured to be driven in rotation during the engagement of one of the two manual corrector actuators, in order to limit the travel of the other of the two manual corrector actuators and to prevent the corrector associated therewith from accessing said correction wheel set, wherein each of the two manual corrector actuators pivots about a hinge pin, and wherein each associated corrector comprises an oblong guide groove cooperating with said hinge pin of the corresponding manual corrector actuator, said oblong groove being configured to guide the movement of said associated corrector during the pivoting of said corresponding manual corrector actuator. 2. The device for manually controlling a mechanism for a timepiece according to claim 1 , wherein each of the two manual corrector actuators comprises an actuating stud which sets in motion said associated corrector by the pivoting of the corresponding manual corrector actuator about said hinge pin. 3. The device for manually controlling a mechanism for a timepiece according to claim 1 , wherein said oblong groove is configured to guide said associated corrector, in rotation and translation, during the pivoting of said corresponding manual corrector actuator. 4. The device for manually controlling a mechanism for a timepiece according to claim 1 , wherein at least one of the two manual corrector actuators comprises an angular travel limit member. 5. The device for manually controlling a mechanism for a timepiece according to claim 4 , wherein the angular travel limit member is formed by a limiting groove made in a body of said at least one of the two manual corrector actuators and by a limiting pin carried by a plate carrying the manual control device. 6. The device for manually controlling a mechanism for a timepiece according to claim 1 , wherein said locking lever constitutes a safety lever, said locking lever comprising a first end having a first stop finger and a second end, opposite the first end, which has a second stop finger, the first and the second stop fingers being configured to cooperate in abutment, respectively with a manual corrector actuator from among the two manual corrector actuators. 7. The device for manually controlling a mechanism for a timepiece according to claim 6 , wherein the first stop finger and the second stop finger have an identical shape and/or carry out an identical function. 8. A device for manually controlling a mechanism for a timepiece, comprising: two counteracting manual corrector actuators, arranged to be operated by a user and to control one and the same correction wheel set in opposing movements, each of the two manual corrector actuators setting in motion an associated corrector having a beak which is configured to bear against a relief of said correction wheel set and to cause said correction wheel set to move when said manual corrector actuator is moved over its full path of travel under the action of the user, said manual control device comprises a locking lever mechanism arranged to prohibit an action of one of the two manual corrector actuators on said correction wheel set when the other of the two manual corrector actuators is engaged and interacting with said correction wheel set, wherein said locking lever mechanism comprises a locking lever configured to be driven in rotation during the engagement of one of the two manual corrector actuators, in order to limit the travel of the other of the two manual corrector actuators and to prevent the corrector associated therewith from accessing said correction wheel set, wherein said locking lever constitutes a safety lever, said locking lever comprising a first end having a first stop finger and a second end, opposite the first end, which has a second stop finger, the first and the second stop fingers being configured to cooperate in abutment, respectively with a manual corrector actuator from among the two manual corrector actuators, and wherein each of the two manual corrector actuators comprises: a first bearing profile configured to form a stop profile in cooperation with the first stop finger or the second stop finger and to prevent said manual corrector actuator considered from rotating; a second bearing profile configured to form an escapement profile on which the first stop finger or the second stop finger slides so as to allow said manual corrector actuator considered to partially rotate. 9. The device for manually controlling a mechanism for a timepiece according to claim 8 , wherein said first bearing profiles of the two manual corrector actuators are arranged relative to one another in a substantially aligned manner, and wherein the first stop finger and the second stop finger respectively bear against said first bearing profile of each of said two manual corrector actuators when each of said two manual corrector actuators are actuated simultaneously by the user. 10. The device for manually controlling a mechanism for a timepiece according to claim 8 , wherein said second bearing profiles of said two manual corrector actuators are arranged opposing one another so as to form an acute angle with a vertex of the acute angle pointing towards the mechanism. 11. The device for manually controlling a mechanism for a timepiece according to claim 1 , wherein said locking lever is in one piece. 12. The device for manually controlling a mechanism for a timepiece according to claim 1 , wherein said locking lever is mounted such that it pivots about a shaft mounted on a plate carrying said manual control device. 13. The device for manually controlling a mechanism for a timepiece according to claim 1 , wherein said locking lever and the two manual corrector actuators are coplanar. 14. The device for manually controlling a mechanism for a timepiece according to claim 1 , wherein said two manual corrector actuators and/or the correctors associated therewith extend in two different parallel planes. 15. The device for manually controlling a mechanism for a timepiece according to claim 1 , further comprising a first elastic return means and a second elastic return means, each of said elastic return means being configured to push one of the two manual corrector actuators back into an inactive rest position, the first elastic return means and/or said second elastic return means cooperating directly with an associated corrector. 16. A timepiece, comprising at least one mechanism, at least one correction wheel set of the timepiece is arranged to be controlled by at least one of the device according to claim 1 . 17. The timepiece according to claim 16 , wherein said correction wheel set is held in position by a jumper subjected to the action of at