It is enabled to facilitate fine adjustment of power as well as reduction of the amount of movement required to maximize the power. An actuator 13 is moved by operation of a user. A pressure sensitive sensor 15 detects applied pressing force. A pressing member 14 presses the pressure sensitive sensor 15. When the amount of movement of the actuator 13 is smaller than a predetermined amount, the pressing member 14 presses the pressure sensitive sensor 15 to apply force corresponding to the amount of movement of the actuator 13. When the amount of movement of the actuator 13 is not smaller than the predetermined amount, the pressing member 14 presses the pressure sensitive sensor 15 to apply force corresponding to pressing force applied to the actuator 13 by the user.

It is enabled to facilitate fine adjustment of power as well as reduction of the amount of movement required to maximize the power. An actuator 13 is moved by operation of a user. A pressure sensitive sensor 15 detects applied pressing force. A pressing member 14 presses the pressure sensitive sensor 15. When the amount of movement of the actuator 13 is smaller than a predetermined amount, the pressing member 14 presses the pressure sensitive sensor 15 to apply force corresponding to the amount of movement of the actuator 13. When the amount of movement of the actuator 13 is not smaller than the predetermined amount, the pressing member 14 presses the pressure sensitive sensor 15 to apply force corresponding to pressing force applied to the actuator 13 by the user.

A switch includes: a case including an opening; a cover that covers the opening, is made of an elastomer, and bulges outward from the case; a push rod movably disposed to protrude into the cover from the opening and to retreat through the opening from inside of the cover; a biasing portion that biases the push rod toward the cover from the opening; a fixing contact piece disposed in the case; a movable contact piece that contacts the fixing contact piece, and moves with the push rod inside the case to separate from the fixing contact piece; and a slide contact member disposed on an inner surface of the cover and contacts a tip end of the push rod.

A steering wheel horn assembly having two sections with an annular electrical circuit board member interposed and disposed between the sections and electrically coupled to a power source, an electrical ground, and an electrical horn. Also disposed within the two sections is an annular button membrane with a plurality of deformably resilient horn buttons, wherein each of the plurality of deformably resilient horn buttons have a terminal front surface and a rear surface opposing the terminal front surface and that is disposed adjacent to the annular electrical circuit board member, have a static position along a button translation path projecting through one of the plurality enclosed apertures, and have a depressed position with the rear surface directly coupled to the annular electrical circuit board member and electrically completing a circuit on the annular electrical circuit board member and causing the electrical horn to generate the audible sound.

A steering wheel horn assembly having two sections with an annular electrical circuit board member interposed and disposed between the sections and electrically coupled to a power source, an electrical ground, and an electrical horn. Also disposed within the two sections is an annular button membrane with a plurality of deformably resilient horn buttons, wherein each of the plurality of deformably resilient horn buttons have a terminal front surface and a rear surface opposing the terminal front surface and that is disposed adjacent to the annular electrical circuit board member, have a static position along a button translation path projecting through one of the plurality enclosed apertures, and have a depressed position with the rear surface directly coupled to the annular electrical circuit board member and electrically completing a circuit on the annular electrical circuit board member and causing the electrical horn to generate the audible sound.

A power tool includes a tool-main-body part, an electric motor as a drive source, a grip part, which extends downward from the tool-main-body part and is configured to be gripped by a user, and a power-supply unit at a tip of the grip part. The power tool includes a controller configured to control the operation of the electric motor, the controller being located on the power-supply unit, and a display controlled by the controller and configured to indicate an operating state of the electric motor. The controller and the display each have a flat-plate shape and are disposed along a surface direction with respect to one another, and the display includes a first portion that overlies the controller and a second portion that projects beyond an end edge of the controller.

A power tool includes a tool-main-body part, an electric motor as a drive source, a grip part, which extends downward from the tool-main-body part and is configured to be gripped by a user, and a power-supply unit at a tip of the grip part. The power tool includes a controller configured to control the operation of the electric motor, the controller being located on the power-supply unit, and a display controlled by the controller and configured to indicate an operating state of the electric motor. The controller and the display each have a flat-plate shape and are disposed along a surface direction with respect to one another, and the display includes a first portion that overlies the controller and a second portion that projects beyond an end edge of the controller.

A lockable trigger mechanism for an electrical device, comprising: a housing; a trigger for biased movement relative to the housing; an actuator movably mounted to the housing such that in response to operation of the trigger, the actuator is movable along a movement axis from an OFF position inwardly of the housing towards an ON position, and movable along the movement axis from the ON position in a direction outwardly of the housing towards the OFF position; an electrical switch unit mounted to the housing 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.

A lockable trigger mechanism for an electrical device, comprising: a housing; a trigger for biased movement relative to the housing; an actuator movably mounted to the housing such that in response to operation of the trigger, the actuator is movable along a movement axis from an OFF position inwardly of the housing towards an ON position, and movable along the movement axis from the ON position in a direction outwardly of the housing towards the OFF position; an electrical switch unit mounted to the housing 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.

A steering wheel horn assembly having two sections with an annular electrical circuit board member interposed and disposed between the sections and electrically coupled to a power source, an electrical ground, and an electrical horn. Also disposed within the two sections is an annular button membrane with a plurality of deformably resilient horn buttons, wherein each of the plurality of deformably resilient horn buttons have a terminal front surface and a rear surface opposing the terminal front surface and that is disposed adjacent to the annular electrical circuit board member, have a static position along a button translation path projecting through one of the plurality enclosed apertures, and have a depressed position with the rear surface directly coupled to the annular electrical circuit board member and electrically completing a circuit on the annular electrical circuit board member and causing the electrical horn to generate the audible sound.