Bistable shape memory alloy inertial actuator

The invention claimed is: 1 . A bistable shape memory alloy inertial actuator comprising a body connected to one or more shape memory alloy wires actuatable through a current pulse generated by an electrical circuit, said one or more shape memory alloy wires having a diameter comprised between 0.025 and 0.5 mm and being in operational contact with an inertial element movable between a first stable position and a second stable position and vice versa under the concurrent actuation of the one or more shape memory alloy wires, wherein said actuator is subjected to a locking force with an elastic constant K, expressed in g/mm, wherein the actuator has a parameter P defined as the inverse of said elastic constant multiplied by the ratio between the mass M of said inertial element, expressed in grams, and the total cross-sectional area A, expressed in mm 2 , of the shape memory alloy wires in operational contact with the inertial element, said parameter P=(⅟K)*(M/A) being comprised between 15 and 750 mm -1 , and wherein said electrical circuit is configured to generate a current pulse with a duration comprised between 0.1 and 50 ms. 2 . The bistable shape memory alloy inertial actuator according to claim 1 , wherein at least one element of the electrical circuit that generates the current pulse is mounted on the body. 3 . The bistable shape memory alloy inertial actuator actuator according to claim 2 , wherein said at least one element of the electrical circuit is a capacitor. 4 . The bistable shape memory alloy inertial actuator according to claim 1 , wherein it includes multiple shape memory alloy wires that are connected in parallel or in series. 5 . The bistable shape memory alloy inertial actuator according to claim 1 , wherein said locking force with elastic constant K is provided by an elastic element connected to the actuator body or by the actuator body itself. 6 . The bistable shape memory alloy inertial actuator according to claim 1 , wherein the actuator body has a main portion with a circular segment geometry. 7 . The bistable shape memory alloy inertial actuator according to claim 6 , wherein said circular segment has a diameter comprised between 1 mm and 20 cm. 8 . The bistable shape memory alloy inertial actuator according to claim 6 , wherein a plurality of hinges are present on the main portion of the actuator body with a circular segment geometry. 9 . The bistable shape memory alloy inertial actuator according to claim 8 , wherein two hinges are in correspondence of terminal parts of the main portion of the actuator body with a circular segment geometry. 10 . The bistable shape memory alloy inertial actuator according to claim 9 , wherein the inertial element is connected to the actuator body through the hinges in correspondence of the terminal parts of the main portion thereof via two arms of equal length. 11 . The A bistable shape memory alloy inertial actuator according to claim 10 , wherein the length of the path connecting the hinges along the two arms and through the inertial element is between 1.1 and 3 times the length of a straight line connecting said hinges. 12 . A method, comprising: operating the bistable shape memory alloy inertial actuator according to claim 1 , wherein the duration of the current pulse for the actuation of the one or more shape memory alloy wires is comprised between 0-1 ms and 50 ms. 13 . The bistable shape memory alloy inertial actuator according to claim 1 , wherein said parameter P=(⅟K)*(M/A) is comprised 25 and 500 mm -1 . 14 . The bistable shape memory alloy inertial actuator according to claim 6 , wherein the circular segment is between ⅔ and ⅚ of a full circle. 15 . The method according to claim 13 , wherein the duration of the current pulse is comprised between 1 ms and 25 ms.