Aircraft landing gear assembly

1 . An aircraft landing gear assembly comprising: a lock link comprising a first link pivotally coupled to a second link, the lock link being movable between a locked, generally aligned condition and an unlocked broken condition, a first one of the links including a lock link engagement formation that defines a swept volume as the lock link moves between the locked condition and the unlocked broken condition; an electromechanical rotary unlock actuator comprising: a motor unit arranged to rotate a shaft; a crank arm mounted on the shaft to rotate therewith; and an elongate pawl, which includes a pawl engagement formation, the pawl being movably coupled to the crank arm such that rotation of the shaft in a first direction moves the pawl engagement formation into the swept volume of the lock link engagement formation for engagement therewith to change the lock link from the locked condition to the unlocked condition, and rotation of the shaft in the opposite direction moves the pawl engagement formation out of the swept volume of the lock link engagement formation to permit the lock link to assume the locked condition; and a release mechanism operable to permit the lock link to assume the locked condition in the event of a motor jam which inhibits rotation of the shaft in the second direction, wherein the release mechanism comprises an auxiliary actuator arranged to move the pawl engagement formation relative to the crank arm, the release mechanism being arranged such that the pawl and auxiliary actuator are independently movable with respect to one another. 2 . The aircraft landing gear assembly according to claim 1 , wherein the auxiliary actuator is configured to move the engagement formation out of the swept volume by moving the pawl relative to the crank arm. 3 . The aircraft landing gear assembly according to claim 1 , wherein the auxiliary actuator includes a motor arranged to move an elongate arm having a free end for moving the pawl. 4 . The aircraft landing gear assembly according to claim 3 , wherein the free end of the arm comprises a roller. 5 . The aircraft landing gear assembly according to claim 1 , wherein the engagement formation is movably mounted relative to the body of the pawl to move between a deployed condition and retracted condition, the auxiliary actuator being configured to move the engagement formation from the deployed condition to the retracted condition to enable the lock link to assume the locked condition. 6 . The aircraft landing gear assembly according to claim 5 , wherein the pawl includes a sloped passage region having a contact face orientated at a different angle relative to the contact face of the pawl engagement formation. 7 . The aircraft landing gear assembly according to claim 6 , wherein the pawl engagement formation is movably mounted in parallel with the pawl such that the contact face of the pawl engagement formation is prominent relative to the contact face of the sloped passage region when the engagement formation is in the deployed condition. 8 . The aircraft landing gear assembly according to claim 5 , wherein the auxiliary actuator comprises an electric motor arranged to rotate a cam surface against which a rear face of the pawl engagement formation is biased. 9 . The aircraft landing gear assembly according to claim 1 , wherein the pawl and crank arm are pivotally coupled to one another via a pivot pin. 10 . The aircraft landing gear assembly according to claim 1 , wherein the lock link engagement formation comprises a roller mounted on a projection. 11 . The aircraft landing gear assembly according to claim 1 , wherein the auxiliary actuator comprises an electromechanical actuator. 12 . An aircraft landing gear assembly comprising: a lock link comprising a first link pivotally coupled to a second link, the lock link being movable between a locked, generally aligned condition and an unlocked broken condition, a first one of the links including a lock link engagement formation that defines a swept volume as the lock link moves between the locked condition and the unlocked broken condition; an electromechanical rotary unlock actuator comprising: a motor unit arranged to rotate a shaft; a crank arm mounted on the shaft to rotate therewith; and an elongate pawl which includes a pawl engagement formation, the pawl being movably coupled to the crank arm such that rotation of the shaft in a first direction moves the pawl engagement formation into the swept volume of the lock link engagement formation for engagement therewith to change the lock link from the locked condition to the unlocked condition, and rotation of the shaft in the opposite direction moves the pawl engagement formation out of the swept volume of the lock link engagement formation to permit the lock link to assume the locked condition; and a release mechanism operable to permit the lock link to assume the locked condition in the event of a motor jam which inhibits rotation of the shaft in the second direction, wherein the release mechanism comprises a torque transmitting interface provided between a motor side of the shaft and the pawl, the torque transmitting interface being arranged to transmit a force required to change the lock link from the locked over centre condition to the unlocked broken condition and being arranged to not transmit a reactive force equating to the lock link, in use, moving from the unlocked broken condition to the locked over centre condition. 13 . The aircraft landing gear assembly according to claim 12 , wherein the torque transmitting interface comprises a slipper mechanism including an input side rotationally coupled to an output side, the input side being coupled to the shaft and the output shaft being coupled to an anchor point on the landing gear assembly, the input side being provided with an input engagement formation which, upon rotation of the input side, engages with an output engagement formation associated with the output side to transmit a relatively low torque from the inputs side to the output side, wherein and at least one of the engagement formations is resiliently movable against a biasing device such that application of a relatively high torque to the input side causes movement of the engagement formation such that the slipper mechanism does not transmit the relatively high torque from the input side to the output side. 14 . The aircraft landing gear assembly according to claim 12 , wherein the torque transmitting interface comprises splines or the like configured to shear upon application of a predetermined load. 15 . An aircraft landing gear assembly comprising: a lock link comprising a first link pivotally coupled to a second link, the lock link being movable between a locked, generally aligned condition and an unlocked broken condition, a first one of the links including a lock link engagement formation that defines a swept volume as the lock link moves between the locked condition and the unlocked broken condition; an electromechanical rotary unlock actuator comprising: a motor unit arranged to rotate a shaft; a crank arm mounted on the shaft to rotate therewith; and an elongate pawl which includes a pawl engagement formation, the pawl being movably coupled to the crank arm such that rotation of the shaft in a first direction moves the pawl engagement formation into the swept volume of the lock link engagement formation for engagement therewith to change the lock link from the locked condition to the unlocked condition, and rotation of the shaft in the opposite direction moves the pawl engagement formation out of the swept volume of the