Patent ID: 8596975
Filing Date: 2013-12-03
Classification: F01D,F04D,F05D,Y02T

Abstract:
1. A simplified system for controlling propeller blade pitch in an aircraft turboshaft engine, comprising: an annular part for housing a root of the blade, rotation of which is intended to ensure setting of incidence of the blade, the annular part defining a first track including at least first and second notches circumferentially spaced apart from each other and each delimited by a first stop surface in a first direction of the circumferential direction and by a second stop surface in a second direction of the circumferential direction, opposite the first direction; a second substantially annular track, concentric to the first track and positioned opposite and outside in relation thereto, the second stop surface of the first notch and the first stop surface of the second notch also each being oriented towards the second track; an actuating member that actuates the annular part arranged between the first and second tracks, the actuating member including a first stop surface in the first direction of the circumferential direction and a second stop surface in the second direction of the circumferential direction; a first locking member provided between the first and second tracks, housed in the first notch and opposite the second stop surface of the actuating member; and a second locking member provided between the first and second tracks, housed in the second notch and opposite the first stop surface of the actuating member; the first and second locking members configured to occupy, during operation of the turboshaft engine: a normal over-center position, in which the first locking member is in contact with the second stop surface of the first notch, at a distance from the first stop surface of the notch and from the second stop surface of the actuating member, and in contact with the second track, a position in which a first spring placed between the first stop surface of the notch and the first locking member causes a first contact stress of the second stop surface of the notch on the first locking member, and creating a first reaction stress of the second track on the first locking member, the first contact stress and the first reaction stress ensuring a first over-center of the first and second tracks, making them integral in rotation in the first direction, and the second locking member is in contact with the first stop surface of the second notch, at a distance from the second stop surface of the notch and from the first stop surface of the actuating member, and in contact with the second track, a position in which a second spring placed between the second stop surface of the notch and the second locking member causes a second contact stress of the first stop surface of the notch on the locking member, and creating a second reaction stress of the second track on the second locking member, the second contact stress and the second reaction stress ensuring a second over-center of the first and second tracks, making them integral in rotation in the second direction; and an unlocking position in the first direction, in which the first locking member is in contact with the second stop surface of the actuating member, this unlocking position being ensured by application of a first actuating torque in the first direction on the actuating member, of a value making it possible to exert, on the first locking member with the second stop surface of the actuating member, a first unlocking stress opposing the force of the first spring, and sufficing to make the first bearing stress null, and thereby to break the first over-center, the unlocking position in the first direction allowing the rotational movement, in relation to the second track, in the first direction of the actuating torque, of the assembly including the first track, the first and second locking members and the actuating member; and an unlocking position in the second direction, in which the second locking member is in contact with the first stop surface of the actuating member, the unlocking position being ensured by application of a second actuating torque in the second direction on the actuating member, of a value making it possible to exert, on the second locking member with the first stop surface of the actuating member, a second unlocking stress opposing the force of the second spring, and sufficing to make the second bearing stress null, and thereby to break the second over-center, the unlocking position in the second direction allowing the rotational movement, in relation to the second track, in the second direction of the actuating torque, of the assembly including the first track, the first and second locking members and the actuating member.