Fast action shock invariant magnetic actuator for firearms

What is claimed is: 1. An electromagnetic actuator for a firearm comprising: a central axis; an annular stationary outer yoke circumscribing an interior central space; a spool arranged in the central space and defining a longitudinal cavity extending along the central axis; an electromagnetic coil wound around the spool; an axially elongated rotating member disposed in the cavity of the spool about a pivot axis defining a center of rotation, the rotating member pivotably movable relative to the yoke between first and second actuation positions; the rotating member configured to interface with a movable mechanical linkage of the firearm; a pair of spaced apart first and second permanent magnets attached to the outer yoke or the rotating member and creating a static holding torque on the rotating member for maintaining the first or second actuation positions; the yoke, permanent magnets, and rotating member collectively forming a first magnetic flux circuit and a second magnetic flux circuit; wherein the rotating member is rotatable between the first and second actuation positions by changing a polarity of an electric current applied to the electromagnet coil. 2. The electromagnetic actuator according to claim 1 , wherein the actuator is configured to create opposing lines of magnetic flux in the rotating member. 3. The electromagnetic actuator according to claim 1 , wherein the pivot axis is defined by a pivot pin extending the rotating member and spool. 4. The electromagnetic actuator according to claim 1 , wherein the pivot axis is defined by a raised fulcrum feature formed on the rotating member or spool, and the other one of the rotating member or spool comprises a complementary configured fulcrum engagement feature to form a pinless pivot axis. 5. The electromagnetic actuator according to claim 4 , wherein the fulcrum feature comprises a wedge-shaped protrusion and the fulcrum engagement feature comprises a V-shaped recess. 6. The electromagnetic actuator according to claim 1 , wherein the rotating member comprises a first end defining an operating end protrusion configured to interface with the mechanical linkage of the firearm, and an opposite second end defining an actuating end protrusion which defines an openable and closeable first air gap between the yoke and a first side of rotating member, and an openable and closeable second air gap on a second side between the yoke and a second side of the rotating member. 7. The electromagnetic actuator according to claim 6 , wherein the mechanical linkage is a movable trigger mechanism operable to discharge the firearm, the operating end protrusion configured to (i) block movement of the trigger mechanism when the rotating member is in the first actuation position, and (ii) allow movement of the trigger mechanism when the rotating member is in the second actuation position. 8. The electromagnetic actuator according to claim 6 , wherein the mechanical linkage is a movable trigger mechanism operable to discharge the firearm, the operating end protrusion cooperating with a rotatable sear of the trigger mechanism operable to retain an energy storage device in a rearward cocked position, wherein moving the rotating member from the first actuation position to the second actuation position moves the sear to release the energy storage device to discharge the firearm. 9. The electromagnetic actuator according to claim 8 , wherein the energy storage device is a spring-biased hammer or spring-biased striker movable to strike a chambered cartridge in the firearm. 10. The electromagnetic actuator according to claim 6 , wherein one of the pair of permanent magnets is disposed in each of the first and second air gaps. 11. The electromagnetic actuator according to claim 10 , wherein the permanent magnets are attached to the yoke in each of the first and second air gaps. 12. The electromagnetic actuator according to claim 11 , wherein the actuating end protrusion has a generally elongated double-sided hammer configuration including a pair of opposite outwardly facing side actuation surfaces, each actuation surface arranged to alternatingly engage one or the other of the permanent magnets when the rotating member moves between the first and second actuation positions. 13. The electromagnetic actuator according to claim 12 , wherein each of the side actuation surfaces is arcuately curved. 14. The electromagnetic actuator according to claim 6 , wherein the yoke comprises an open receptacle on one end, the operating end of the rotating member positioned and laterally movable in the receptacle when the rotating member moves between the first and second actuation positions. 15. The electromagnetic actuator according to claim 6 , wherein the operating end protrusion projects outwards from an open top receptacle formed in the yoke to interface with the mechanical linkage of the firearm. 16. The electromagnetic actuator according to claim 15 , further comprising a low friction material disposed between each of a front and rear side of the operating end protrusion and the yoke in the receptacle. 17. The electromagnetic actuator according to claim 16 , wherein the low friction material comprises a polymeric coating applied to the front and rear side of the operating end protrusion and the yoke in the receptacle. 18. The electromagnetic actuator according to claim 1 , wherein the spool comprises a generally tubular body having opposing open ends to access the cavity, the rotating member extending outwards from each end of the spool. 19. The electromagnetic actuator according to claim 18 , wherein the body of the spool has a monolithic unitary structure. 20. The electromagnetic actuator according to claim 18 , wherein the body of the spool comprises a first half-section and a second half-section coupled together. 21. The electromagnetic actuator according to claim 18 , wherein the body of the spool is formed of a non-magnetic metallic or non-magnetic non-metallic material. 22. The electromagnetic actuator according to claim 1 , wherein the yoke comprises a front half-section and a rear half-section coupled to the front half-section which traps the spool in the yoke. 23. The electromagnetic actuator according to claim 22 , wherein the spool comprises an outwardly protruding annular flange on opposite ends which engage the yoke and retains the electromagnetic coil on the spool. 24. The electromagnetic actuator according to claim 22 , wherein the front and rear half-sections are each generally C-shaped. 25. The electromagnetic actuator according to claim 1 , wherein the permanent magnets are arranged to form a first and second magnetic flux paths circulating through the yoke and rotating member such that the first and second magnetic flux paths act in opposing directions in a common return flux path located in the rotating member. 26. The electromagnetic actuator according to claim 1 , wherein the center of rotation of the rotating member is sufficiently close to a center of mass of the rotating member such that random linear acceleration forces acting on the actuator from any direction will not generate sufficient force to overcome the static holding torque of the permanent magnets in a plane perpendicular to the axis of rotation. 27. The electromagnetic actuator according to claim 26 , wherein the center of mass of the rotating member is located a maximum dista