A waterproof button assembly includes a body, an elastic element, a first sealing element, a second sealing element, a lower cover, a circuit board and an upper cover. The body is recessed downward to form an upper accommodating groove. The body is recessed inward to form a lower accommodating groove. A bottom wall of the upper accommodating groove is recessed downward to form a holding groove. The bottom wall of the upper accommodating groove defines a first through hole. The body has an opening. The elastic element is mounted in the holding groove. The first sealing element is mounted around the first through hole. The second sealing element is assembled to the opening. The lower cover covers the lower accommodating groove to form an assembling space. The circuit board is assembled in the assembling space. The upper cover is assembled in the upper accommodating groove.

A tiller for an outboard motor includes a tiller body that is elongated along a longitudinal center axis between a proximal end and a distal end. A throttle grip is on the distal end of the tiller body. A trim switch assembly is located at a distal end of the throttle grip. The trim switch assembly includes a momentary switch and a driver. The driver is configured to output current to activate a trim relay on the outboard motor in response to actuation of the momentary switch.

The invention relates to an actuation device (3) for mounting on a vehicle part (2), in particular in the form of a door or a hinged closure element, the actuation device comprising: an electrical switching means (30) having at least one switching element (31) for triggering a vehicle function; and a housing unit (10) having at least a first and a second housing portion (11, 12), which at least partly form a housing interior (13), in which the switching element (31) is arranged, the second housing portion (12) being movable, at least in some regions, relative to the first housing portion (11) from an idle position (I) into an actuation position (II) in order to actuate the switching element (31). The invention further relates to a vehicle (1) and to an actuation method (100).

The invention relates to an actuation device (3) for installing on a movable vehicle part (2), in particular in the form of a door or a hatch, having an electric switch means (20) with a switch element (21) for initiating a vehicle function and having a housing unit (10) with at least one first and second housing element (11, 12) that at least partly form a housing interior (13), in which the switch element (21) is arranged. The invention additionally relates to a vehicle (1) and to an actuation method (100).

The invention relates to an actuation device (3) for installing on a movable vehicle part (2), in particular in the form of a door or a hatch, having an electric switch means (20) with a switch element (21) for initiating a vehicle function and having a housing unit (10) with at least one first and second housing element (11, 12) that at least partly form a housing interior (13), in which the switch element (21) is arranged. The invention additionally relates to a vehicle (1) and to an actuation method (100).

This disclosure relates to ingress-tolerant input devices. Aspects of the disclosure relate to an ingress-tolerant switch assembly for operating an electronic device in an ingress-protected manner. The switch assembly includes a button configured to be coupled to an outer surface of an enclosure of the electronic device. The switch assembly also includes a spring operably coupled to the button and a magnet coupled to the spring. A pressing force applied by a user to the button overcomes a spring force of the spring to move the magnet into proximity of the magnetic sensor to cause the magnetic sensor to generate a sensor signal for performing a function of the electronic device.

A multi-button lamp power supply or controller, comprising a shell and a circuit board arranged in the shell, and further comprising: a first mode switching component, wherein one end of the first mode switching component fits with the shell, and the other end of the first mode switching component is positioned inside the shell and fits with the circuit board; and a second mode switching component, wherein one end of the second mode switching component fits with the shell, and the other end of the second mode switching component is positioned inside the shell and fits with the circuit board. The utility model has the advantages of simple operation.

A multi-button lamp power supply or controller, comprising a shell and a circuit board arranged in the shell, and further comprising: a first mode switching component, wherein one end of the first mode switching component fits with the shell, and the other end of the first mode switching component is positioned inside the shell and fits with the circuit board; and a second mode switching component, wherein one end of the second mode switching component fits with the shell, and the other end of the second mode switching component is positioned inside the shell and fits with the circuit board. The utility model has the advantages of simple operation.

An endoscope including a handle housing having apertures for legs of an operating part, an electrical switch positioned in the handle housing and having a carrier board having apertures for the legs. The operating part includes a finger pad having a finger surface, a ring connected to and extending from the finger pad, the ring having a plunger aperture, legs connected to and extending from the ring, the legs each having a spacer section and an electrical switch retention protrusion. The legs traverse the apertures of the handle housing and the carrier board to secure the electrical switch to the housing handle. The finger pad comprises elastically deformable material configured to extend toward and cause actuation of the electrical switch, when pressure is applied and to return to a rest position when pressure is released.

A button complex structure according to one embodiment of solving the aspect may include: a display panel including a first substrate, a second substrate on the first substrate, and a liquid crystal layer between the first substrate and the second substrate; a member on the second substrate; a first coupling member configured to couple the display panel to one surface of the member; a button structure disposed on the other surface opposite to the one surface of the member; and a second coupling member configured to couple the other surface of the member to the button structure, wherein the member includes a third substrate and the button structure is directly coupled to the third substrate via the second coupling member, wherein the button structure includes a button body fixed to the third substrate, a button circuit unit fastened to the button body, a button connected to the button circuit unit, and further includes a first communication unit disposed between the member and the display panel and a second communication unit disposed in the button circuit unit.