Method for monitoring a blocking member, and electromechanical actuator

The invention claimed is: 1. A method for monitoring a blocking member ( 12 ) of an electromechanical actuator ( 1 ), the blocking member ( 12 ) being adapted to block in position an actuation member driven by an electric motor ( 11 ) of the electromechanical actuator ( 1 ), the monitoring method comprising the steps of: determining a value representative of a power supply current (Ivr) of the electric motor ( 11 ) during an off-load operating phase (Phv) of the electromechanical actuator ( 1 ); comparing the value representative of the power supply current with a predetermined current threshold (Ithresh), said predetermined current threshold being defined from nominal off-load operating characteristics of the electromechanical actuator ( 1 ); and detecting an accidental locking of the blocking member ( 12 ) when the value representative of the power supply current is above or equal to the predetermined current threshold. 2. The monitoring method according to claim 1 , in which the value representative of the power supply current (Ivr) is an absolute value of an average (Ia) of measured values of the power supply current (Ivr). 3. The monitoring method according to claim 1 , further comprising confirmation steps intended, when an accidental locking of the blocking member ( 12 ) is detected, to confirm said accidental locking, said confirmation steps comprising the steps of: determining a value representative of a temperature (Tvr) of the electromechanical actuator ( 1 ); and comparing the value representative of the temperature (Tvr) of the electromechanical actuator with a predetermined temperature threshold (Tempthresh). 4. The monitoring method according to claim 2 , further comprising confirmation steps intended, when an accidental locking of the blocking member ( 12 ) is detected, to confirm said accidental locking, said confirmation steps comprising the steps of: determining a value representative of a temperature (Tvr) of the electromechanical actuator ( 1 ); and comparing the value representative of the temperature (Tvr) of the electromechanical actuator with a predetermined temperature threshold (Tempthresh). 5. The monitoring method according to claim 3 , in which the confirmation steps further comprise the steps of: determining an elapsed time (Tec) since a previous use of the electromechanical actuator ( 1 ); and comparing the elapsed time (Tec) with a predetermined time threshold (Tthresh). 6. The monitoring method according to claim 4 , in which the confirmation steps further comprise the steps of: determining an elapsed time (Tec) since a previous use of the electromechanical actuator ( 1 ); and comparing the elapsed time (Tec) with a predetermined time threshold (Tthresh). 7. The monitoring method according to claim 3 , in which the confirmation steps further comprise the steps of: disabling a monitoring of the blocking member ( 12 ) when the value representative of the temperature (Tvr) of the electromechanical actuator ( 1 ) is strictly below the predetermined temperature threshold (Tempthresh) and when an elapsed time (Tec) is strictly above a predetermined time threshold (Tthresh); and confirming the accidental locking of the blocking member ( 12 ) when the value representative of the temperature (Tvr) of the electromechanical actuator ( 1 ) is above or equal to the predetermined temperature threshold (Tempthresh) or when the elapsed time (Tec) is below or equal to the predetermined time threshold (Tthresh). 8. The monitoring method according to claim 4 , in which the confirmation steps further comprise the steps of: disabling a monitoring of the blocking member ( 12 ) when the value representative of the temperature (Tvr) of the electromechanical actuator ( 1 ) is strictly below the predetermined temperature threshold (Tempthresh) and when an elapsed time (Tec) is strictly above a predetermined time threshold (Tthresh); and confirming the accidental locking of the blocking member ( 12 ) when the value representative of the temperature (Tvr) of the electromechanical actuator ( 1 ) is above or equal to the predetermined temperature threshold (Tempthresh) or when the elapsed time (Tec) is below or equal to the predetermined time threshold (Tthresh). 9. The monitoring method according to claim 5 , in which the confirmation steps further comprise the steps of: disabling a monitoring of the blocking member ( 12 ) when the value representative of the temperature (Tvr) of the electromechanical actuator ( 1 ) is strictly below the predetermined temperature threshold (Tempthresh) and when the elapsed time (Tec) is strictly above the predetermined time threshold (Tthresh); and confirming the accidental locking of the blocking member ( 12 ) when the value representative of the temperature (Tvr) of the electromechanical actuator ( 1 ) is above or equal to the predetermined temperature threshold (Tempthresh) or when the elapsed time (Tec) is below or equal to the predetermined time threshold (Tthresh). 10. The monitoring method according to claim 6 , in which the confirmation steps further comprise the steps of: disabling a monitoring of the blocking member ( 12 ) when the value representative of the temperature (Tvr) of the electromechanical actuator ( 1 ) is strictly below the predetermined temperature threshold (Tempthresh) and when the elapsed time (Tec) is strictly above the predetermined time threshold (Tthresh); and confirming the accidental locking of the blocking member ( 12 ) when the value representative of the temperature (Tvr) of the electromechanical actuator ( 1 ) is above or equal to the predetermined temperature threshold (Tempthresh) or when the elapsed time (Tec) is below or equal to the predetermined time threshold (Tthresh). 11. The monitoring method according to claim 1 , further comprising, when an accidental locking of the blocking member ( 12 ) is detected, a reconfiguration or self-correction step intended to try to unlock the blocking member ( 12 ). 12. The monitoring method according to claim 2 , further comprising, when an accidental locking of the blocking member ( 12 ) is detected, a reconfiguration or self-correction step intended to try to unlock the blocking member ( 12 ). 13. An electromechanical actuator comprising an actuation member, an electric motor ( 11 ) adapted to drive the actuation member and a blocking member ( 12 ) adapted to blocking in position the actuation member, characterised in that the blocking member ( 12 ) is monitored by the monitoring method according to claim 1 . 14. An electromechanical actuator comprising an actuation member, an electric motor ( 11 ) adapted to drive the actuation member and a blocking member ( 12 ) adapted to blocking in position the actuation member, characterised in that the blocking member ( 12 ) is monitored by the monitoring method according to claim 2 . 15. The electromechanical actuator according to claim 13 , the electromechanical actuator ( 1 ) being a braking actuator with which a brake ( 2 ) of an aircraft wheel ( 3 ) is equipped, the actuation member comprising a plunger ( 13 ) actuated by the electric motor ( 11 ) to selectively apply a controlled force to friction elements ( 9 ) of the brake ( 2 ). 16. The electromechanical actuator according to claim 14 , the electromechanical actuator ( 1 ) being a braking actuator with which a brake ( 2 ) of an aircraft wheel ( 3 ) is equipped, the actuation member comprising a plunger ( 13 ) actuated by the electric motor ( 11 ) to selectively apply a controlled force to friction elements ( 9 ) of the brake ( 2 ).