An electrical machine includes a stator and a rotor rotatably mounted in the stator. A spindle is guided through the electrical machine. At least one magnetic flux-conductive assembly which can be introduced into the electrical machine is provided. The magnetic flux-conductive assembly is disposed on the spindle in a linearly displaceable manner in order to vary a motor constant of the electrical machine as a result of a displacement into the electrical machine.

An electrical machine includes a stator and a rotor rotatably mounted in the stator. A spindle is guided through the electrical machine. At least one magnetic flux-conductive assembly which can be introduced into the electrical machine is provided. The magnetic flux-conductive assembly is disposed on the spindle in a linearly displaceable manner in order to vary a motor constant of the electrical machine as a result of a displacement into the electrical machine.

A sensor core (8) is arranged in a plane (P1), which is positioned on sides of opposite ends of plungers (5a, 5b) from bosses (6a, 6b), and which is perpendicular to a direction of movement of the plungers (5a, 5b). A magnetic sensor (9) is arranged at a position in the plane (P1), the position being apart from a magnetic path (A3) of a leakage flux of a magnetic circuit (A).

A sensor core (8) is arranged in a plane (P1), which is positioned on sides of opposite ends of plungers (5a, 5b) from bosses (6a, 6b), and which is perpendicular to a direction of movement of the plungers (5a, 5b). A magnetic sensor (9) is arranged at a position in the plane (P1), the position being apart from a magnetic path (A3) of a leakage flux of a magnetic circuit (A).

An electromagnetic device for eliminating a yarn loop during winding of a yarn on a cross-wound bobbin on a spinning machine at a constant speed of the yarn production includes a cylindrical two pole magnet rotatably mounted about a longitudinal axis thereof. A compensatory arm is connected to the two pole magnet. A magnetic core includes two poles situated opposite of each other, with the cylindrical two pole magnet rotatable between the poles. A side of the magnetic core opposite from the two poles passes through a cavity of an electrical coil, wherein the magnetic core is interrupted in the cavity. A two pole permanent magnet is located at the point of the interruption of the magnetic core in the cavity of the electrical coil.

An electromagnetic device for eliminating a yarn loop during winding of a yarn on a cross-wound bobbin on a spinning machine at a constant speed of the yarn production includes a cylindrical two pole magnet rotatably mounted about a longitudinal axis thereof. A compensatory arm is connected to the two pole magnet. A magnetic core includes two poles situated opposite of each other, with the cylindrical two pole magnet rotatable between the poles. A side of the magnetic core opposite from the two poles passes through a cavity of an electrical coil, wherein the magnetic core is interrupted in the cavity. A two pole permanent magnet is located at the point of the interruption of the magnetic core in the cavity of the electrical coil.

A connector system includes a connector base, a connector head, a latch, and a solenoid. The connector base and the connector head may be coupled together to establish an electrical connection therebetween. The connector base and connector head may be latched and unlatched using a combination of a magnet and the solenoid. The magnet facilitates latching and the solenoid facilitates unlatching of the connector head from the connector base.

A connector system includes a connector base, a connector head, a latch, and a solenoid. The connector base and the connector head may be coupled together to establish an electrical connection therebetween. The connector base and connector head may be latched and unlatched using a combination of a magnet and the solenoid. The magnet facilitates latching and the solenoid facilitates unlatching of the connector head from the connector base.

The bistable electromechanical actuator comprises an actuator shaft (7) arranged in a house (1), said shaft being movable along its longitudinal direction, a base member (11) attached to the actuator shaft (7), said base member being slidably attached to a guiding element (3, 3,3) through a stud (15), said guiding element being secured to the house and having two locking notches (2a, 2b) with a predetermined distance therebetween and further having a straight or substantially straight guiding section (2c) formed between said two locking notches in a plane parallel to the longitudinal direction of said shaft (7), wherein at least one permanent magnet is fixed to the base member (11) so that the magnetic axis of each permanent magnet is perpendicular or substantially perpendicular to the longitudinal direction of said shaft (7), and wherein at least one electromagnetic coil (13) is arranged within said house (1) so that in an idle state of the actuator, one end of each coil (13) is arranged to be adjacent to one of the at least one permanent magnet (12) in such a manner that the position of said end of the respective coil (13) is slightly offset, along the longitudinal direction of said shaft (7), with respect to the position of the permanent magnet (12) adjacent thereto.

The bistable electromechanical actuator comprises an actuator shaft (7) arranged in a house (1), said shaft being movable along its longitudinal direction, a base member (11) attached to the actuator shaft (7), said base member being slidably attached to a guiding element (3, 3,3) through a stud (15), said guiding element being secured to the house and having two locking notches (2a, 2b) with a predetermined distance therebetween and further having a straight or substantially straight guiding section (2c) formed between said two locking notches in a plane parallel to the longitudinal direction of said shaft (7), wherein at least one permanent magnet is fixed to the base member (11) so that the magnetic axis of each permanent magnet is perpendicular or substantially perpendicular to the longitudinal direction of said shaft (7), and wherein at least one electromagnetic coil (13) is arranged within said house (1) so that in an idle state of the actuator, one end of each coil (13) is arranged to be adjacent to one of the at least one permanent magnet (12) in such a manner that the position of said end of the respective coil (13) is slightly offset, along the longitudinal direction of said shaft (7), with respect to the position of the permanent magnet (12) adjacent thereto.