Lockable trigger mechanism for use in an electrical device

What is claimed is: 1. A lockable trigger mechanism for an electrical device, comprising: a housing; a trigger configured for biased movement relative to the housing; an actuator movably mounted to the housing such that, responsive to operation of the trigger, is movable along a movement axis from an OFF position in a direction inwardly of an opening in the housing towards an ON position, and movable along the movement axis from the ON position in a direction outwardly of the opening in the housing towards the OFF position; an electrical switch unit mounted to the housing configured for activation in response to movement of the actuator along the movement axis between its ON and OFF positions to close and open an electrical circuit of the electrical device respectively; and a locking mechanism comprising a first locking member, a second locking member and a biasing member configured for biasing movement of the first locking member relative to the second locking member; wherein, responsive to the actuator being moved in a direction inwardly of the housing along the movement axis from its OFF position into its ON position, the first locking member is moved relative to the second locking member into engagement with a first shape contour of said second locking member and said first locking member is held in engagement with the first shape contour of said second locking member by the biasing member urging the first and second locking members together whereby the engagement of the first locking member with the first shape contour of the second locking member is configured to restrict movement of the actuator in a direction outwardly of the housing along the movement axis from the ON position to its OFF position, and thereafter, responsive to the actuator being moved further in a direction inwardly of the housing along the movement axis, the first locking member is moved out of engagement with the first shape contour of the second locking member and along a second shape contour of the second locking member whereby the movement of the first locking member along the second shape contour of the second locking member is configured to allow the actuator to be urged in a direction outwardly of the housing along the movement axis in to its OFF position; and wherein, the first locking member includes a track disposed in a surface of the actuator, said track being formed so as to project inwardly of the actuator surface in a direction substantially perpendicularly to the direction of the movement axis of the actuator, the second locking member including a spring-loaded guide pin mounted on an inner surface of the housing, said guide pin being configured to extend inwardly of the housing from the inner surface of the housing in a direction substantially perpendicularly to the movement axis of the actuator and inwardly of the track, whereby responsive to the movement of the actuator inwardly and outwardly of the housing the guide pin is configured to slidably traverse the track. 2. A lockable trigger mechanism as claimed in claim 1 wherein the biasing member includes an elastic member. 3. A lockable trigger mechanism as claimed in claim 1 wherein the elastic member includes a coil spring. 4. A lockable trigger mechanism as claimed in claim 1 wherein the biasing member of the locking mechanism is configured for movement in substantially a same direction as the biasing member of the actuator. 5. A lockable trigger mechanism as claimed in claim 1 wherein the biasing member of the locking member is configured to function a dual-purpose as the biasing member of the actuator. 6. A lockable trigger mechanism as claimed in claim 5 wherein the biasing member of the locking member includes a return spring of the actuator. 7. A lockable trigger mechanism as claimed in claim 1 wherein the actuator is configured to move along a linear axis inwardly and outwardly of the housing via the opening between its ON and OFF positions. 8. A lockable trigger mechanism as claimed in claim 1 wherein, when the actuator is moved in a direction inwardly of the housing along the movement axis from its OFF position into its ON position and the first locking member is moved relative to the second locking member into engagement with the first shape contour of said second locking member, the electrical device is configured to operate at a maximum speed of a plurality of possible operational speeds of the electrical device. 9. A lockable trigger mechanism as claimed in claim 1 wherein, when the actuator is moved in a direction inwardly of the housing along the movement axis from its OFF position into its ON position and the first locking member is moved relative to the second locking member into engagement with the first shape contour of said second locking member, the ON position may correspond to any one of a plurality of possible operational speeds of the electrical device. 10. An electrical device including a lockable trigger mechanism in accordance with claim 1 .