Actuating device for moving a movable cover of a thrust reverser

The invention claimed is: 1. An actuating device ( 1 ) for moving a movable cover of a thrust reverser, comprising: an actuator including a first element ( 3 ) and a second element ( 4 ) mounted movable in translation relative to the first element, one of the first element and the second element being a screw, and the other being a nut configured to cooperate with the screw, such that rotation of the first element ( 3 ) relative to the second element ( 4 ) brings about translation of the second element ( 4 ) relative to the first element ( 3 ), and a locking device ( 17 ) including a locking piece ( 18 ) movable in rotation between a locked position wherein the locking piece ( 18 ) prevents rotation of the first element ( 3 ) and an unlocked position wherein the locking piece ( 18 ) allows rotation of the first element ( 3 ), wherein the locking device ( 17 ) includes a tooth ( 20 , 21 ) mounted so as to rotate together with the first element ( 3 ), and the locking piece ( 18 ) includes a latch ( 47 ) including a locking portion ( 48 ) having a convex portion ( 50 ) and a plane or substantially concave portion ( 51 ), the convex portion ( 50 ) being configured to interfere with the tooth ( 20 , 21 ) when the convex portion ( 50 ) is facing the tooth ( 20 , 21 ) and the plane or substantially concave portion ( 51 ) is facing away from the tooth ( 20 , 21 ) to prevent rotation of the first element ( 3 ), and the plane or substantially concave portion ( 51 ) being configured to allow rotation of the first element ( 3 ) when the plane or substantially concave portion ( 51 ) is facing the tooth ( 20 , 21 ) and the convex portion ( 50 ) is facing away from the tooth ( 20 , 21 ), wherein the plane or substantially concave portion ( 51 ) of the latch ( 47 ) is complementary in shape to the surface of the tooth ( 20 , 21 ) which it is configured to face, wherein the tooth ( 20 , 21 ) is asymmetrical so that, in the locked position, the locking piece ( 25 ) prevents rotation of the first element ( 3 ) in a first direction (A) and allows rotation of the first element ( 3 ) in a second direction (B), opposite to the first direction, wherein the locking portion ( 48 ) exhibits a semi-circular shape. 2. The actuating device according to claim 1 , wherein the locking piece ( 18 ) is configured, in the locked position, to come into engagement with the tooth ( 20 , 21 ) to prevent rotation of the first element ( 3 ). 3. The device according to claim 1 , comprising an unlocking device ( 23 ) including an unlocking piece ( 25 ) movable in rotation between an active position wherein the unlocking piece ( 25 ) urges the locking piece ( 18 ) toward the unlocked position and a passive position wherein the unlocking piece ( 25 ) allows the locking piece ( 18 ) to return to the locked position, and a drive member ( 24 ) configured to drive the unlocking piece ( 25 ) in rotation in order for the unlocking piece ( 25 ) to move the locking piece ( 18 ) toward the unlocked position. 4. The device according to claim 3 , wherein the locking piece ( 18 ) is capable of meshing with the unlocking piece ( 25 ) so that rotation of the unlocking piece ( 25 ) controls rotation of the locking piece ( 18 ). 5. The device according to claim 3 , wherein the drive member ( 24 ) includes a rotating electromagnet ( 31 ). 6. The device according to claim 3 , wherein the unlocking device ( 23 ) includes a return spring ( 32 ) configured to urge the unlocking piece ( 25 ) into the passive position. 7. The device according to claim 3 , wherein the unlocking device ( 23 ) includes a stop ( 35 ) and a retainer ( 34 ) rotationally fixed to the unlocking piece ( 25 ) and movable in translation relative to the unlocking piece ( 25 ) between a retaining position wherein rotation of the retainer ( 34 ) is limited by the stop ( 35 ) and a release position wherein the retainer ( 34 ) is free in rotation. 8. The device according to claim 7 , comprising a return member ( 41 ) adapted for urging the retainer ( 34 ) into the retaining position. 9. The device according to claim 7 , comprising a rod ( 40 ) movable in translation relative to the first element ( 3 ) and configured to be urged by the second element ( 4 ) so as to move the retainer ( 34 ) into the release position. 10. The device according to claim 9 , wherein the mobile rod ( 40 ) extends at least partially inside the first element ( 3 ). 11. The device according to claim 7 , further including a manual unlocking device ( 54 ) for driving the retainer ( 34 ) in rotation so as to bring the unlocking piece ( 25 ) into the active position without activating the drive member ( 24 ). 12. The device according to claim 1 , wherein the first element ( 3 ) is the screw and the second element ( 4 ) is the nut. 13. The device according to claim 1 , wherein the tooth ( 20 , 21 ) comprising a top surface and a flank surface, the flank surface extending from the top surface to connect the top surface to the locking device ( 17 ), the convex portion being configured to interfere with the flank surface of the tooth ( 20 , 21 ) when the convex portion ( 50 ) is facing the tooth ( 20 , 21 ) and the plane or substantially concave portion ( 51 ) is facing away from the tooth ( 20 , 21 ) to prevent rotation of the first element ( 3 ), and the plane or substantially concave portion ( 51 ) being configured to allow rotation of the first element ( 3 ) when the plane or substantially concave portion ( 51 ) is facing the top surface of the tooth ( 20 , 21 ) and the convex portion ( 50 ) is facing away from the tooth ( 20 , 21 ), wherein the plane or substantially concave portion ( 51 ) of the latch ( 47 ) is complementary in shape to the top surface of the tooth ( 20 , 21 ).