A dimmer switch, which is comprised of a shell, which has a circuit board and a dial button for controlling the ON/OFF state of the switch, a first regulating structure and a second regulating structure, the first regulating structure is arranged on the shell, which has a first potentiometer connected to a circuit board, and a push button for adjusting the resistor of the first potentiometer to rough adjust the illumination intensity, the push button moves reciprocate along the shell to drive the first potentiometer; the second regulating structure is located on the shell, which has a second potentiometer connected to a circuit board, and a rotary knob for adjusting the resistor of the second potentiometer to fine-tune the illumination intensity, the rotary knob drives the second potentiometer to rotate, the dimmer switch can coarse adjust the illumination intensity through the push button, and also fine-tune the illumination intensity through the knob on the basis of the coarse adjustment, making it easy for the user to accurately adjust the light to a specific brightness.

An in-line slide dimming switch includes a switch and dimming circuit installed on a printed circuit board (which is installed in the in-line slide dimming switch) and operated with a dimmable energy-saving fluorescent bulb and a dimmable LED bulb, so that the in-line slide dimming switch may adjust the light emitting brightness of the dimmable energy-saving fluorescent bulb and the dimmable LED bulb installed onto a lamp holder. With the wire holders installed at both ends, a power cable is installed conveniently to achieve the effects of shortening the assembling procedure, and improving the assembling efficiency and the market competitiveness.

A slide actuation apparatus includes a bezel configured to maintain a configuration of the slide actuation apparatus. The bezel also includes an opening on an external surface. The slide actuation apparatus also includes an actuator configured to move within a compartment formed by the opening and a sliding rail configured to guide movements of the actuator along a surface of the sliding rail. The sliding rail is compressible downward in response to movement of the actuator along the surface of the sliding rail. The slide actuation apparatus further includes a slide contact configured to make an electrical connection to a flexible circuit and configured to provide a signal of a change to a circuit board of an attached computing device in response to downward compression of the sliding rail.

A current sensing switch for use with a pump that is physically separate from the pump and contains a current sensor for measuring the electrical current flowing to the pump as a method of determining whether the pump is operating in low fluid, dry conditions, or with an impeller that has ceased to rotate. When the current drops below or raises above a predetermined value for a predetermined amount of time, the switch electrically disconnects power to the pump and reconnects it periodically to cheek whether the state of the pump has changed.

Disconnector for switchgear, having a first contact position, in which a contact is between main and first terminals, and a second contact position, in which a contact is between the main and second terminal. The disconnector includes a connector body moveable in a first direction between the first and second positions and having an end extendable in a direction substantially perpendicular to the first direction for providing a contact force between the end and the first, second or main terminals, a first operating mechanism arranged to move the body between the first and second positions, and a second operating mechanism arranged to extend the end when the disconnector is in either the first or second contact positions, in which the end includes a conical inside surface and the second operating mechanism includes a first shaft having a first conically shaped end positioned inside the conical inside surface.

A push switch is provided with a knob that causes the movable contact point in contact with the fixed contact point to slide thereon by a push operation of the knob, thereby connecting/disconnecting the movable contact point and the fixed contact point. A sliding direction of the movable contact point is set to a direction vertical to the push direction of the knob, and the push operation of the knob allows the movable contact point in contact with the fixed contact point to slide in a direction vertical to the push direction of the knob.

A static mitigation end cap for an architectural covering is provided. The covering may include a head rail having an end cap. The end cap may include a housing extending along a longitudinal length of the head rail and defining a chamber. The end cap may include a printed circuit board received within the chamber and configured to control a motor assembly operatively connected to the at least one end cap. The end cap may include an actuation member slidably coupled with the end cap for selective engagement with the printed circuit board.

The present disclosure provides a slidable button assembly and an electronic device. The slidable button assembly includes a support frame, a circuit board secured onto a side of the support frame, a sensor module secured onto a side, away from the support frame, of the circuit board, and a button secured onto a side, away from the circuit board, of the sensor module; wherein the sensor module comprises a plurality of sets of sensor assemblies that are successively arranged and spaced apart from each other, each of the sets of sensor assemblies comprising a plurality of capacitive sensors that are successively arranged and spaced apart from each other, the capacitive sensors being electrically connected to the circuit board. The slidable button assembly according to the present disclosure improves the positioning and sensitivity of progressive adjustment control of the button.

A slide switch includes a housing, two guiding slots, a slider, a push button, a first switch, a second switch, a third switch and two stopping blocks. Two middles of two inner surfaces of the housing protrude inward to form two supporting portions. A horizontal sliding path is formed among the two guiding slots and the two supporting portions. The slider is mounted between the two guiding slots. The push button is perpendicularly mounted to the slider. The first switch is positioned to one side of the sliding path. The second switch is positioned to the other side of the sliding path. The third switch is positioned to a center of the sliding path. The two stopping blocks are positioned at two opposite sides of the sliding path, respectively.