A sensor switch includes two electroconductive terminals and two electroconductive beads. The electroconductive terminals are spaced apart along an axis. Each of the electroconductive terminals has an inner surrounding surface surrounding the axis and having an indented segment indented away from the axis. The electroconductive beads are movably and respectively disposed in the electroconductive terminals. When the sensor switch is placed such that the axis horizontally leveled, the electroconductive beads are respectively retained in the indented segments of the electroconductive terminals to be spaced apart from each other so that the sensor switch is in an open state.

A sensor switch includes two electroconductive terminals and two electroconductive beads. The electroconductive terminals are spaced apart along an axis. Each of the electroconductive terminals has an inner surrounding surface surrounding the axis and having an indented segment indented away from the axis. The electroconductive beads are movably and respectively disposed in the electroconductive terminals. When the sensor switch is placed such that the axis horizontally leveled, the electroconductive beads are respectively retained in the indented segments of the electroconductive terminals to be spaced apart from each other so that the sensor switch is in an open state.

The technology relates to techniques for an electromagnetic inertial switch. An electromagnetic inertial switch can include an electrically conductive and magnetic mass located within a cavity, where portions of the cavity are electrically conductive and are electrically coupled to terminals of the electromagnetic inertial switch. A first magnetic field can be configured to apply a first force on the mass to attract the mass towards a first location, and a second magnetic field can be configured to apply a second force on the mass to attract the mass towards a second location. The electromagnetic inertial switch can be in a first electrical state when the mass is in the first location, and in response to an acceleration event greater than a threshold acceleration, the mass can move to the second location, thereby changing the electromagnetic inertial switch to a second electrical state.

A sensor switch includes a ceramic body including an intermediate layer assembly having an inner peripheral surface with a through hole, a first side layer assembly having a first groove, and a second side layer assembly having a second groove. A first conductive layer is disposed in the first groove, and has a first contact surface. A second conductive layer is disposed in the second groove, and has a second contact surface. The inner peripheral surface and the first and second contact surfaces cooperatively define a sensing cavity. A conductive member is rollably disposed in the sensing cavity and is movable between closed and open circuit positions to achieve a sensing effect.

A sensor switch includes a ceramic body including an intermediate layer assembly having an inner peripheral surface with a through hole, a first side layer assembly having a first groove, and a second side layer assembly having a second groove. A first conductive layer is disposed in the first groove, and has a first contact surface. A second conductive layer is disposed in the second groove, and has a second contact surface. The inner peripheral surface and the first and second contact surfaces cooperatively define a sensing cavity. A conductive member is rollably disposed in the sensing cavity and is movable between closed and open circuit positions to achieve a sensing effect.

A sensor switch includes a base unit having bottom, top and intermediate layer assemblies cooperating with each other to define a chamber. The intermediate layer assembly has an intermediate layer inner peripheral surface. A conducting unit includes a plurality of inner and outer conducting elements. Each inner conducting element has a first conducting section. The first conducting sections of the inner conducting elements are disposed on the intermediate layer inner peripheral surface in an angularly spaced apart manner. Each outer conducting element is connected to the first conducting section of a corresponding inner conducting element. A conductive member is rollably disposed in the chamber.

A sensor switch includes abase unit having bottom, top and intermediate layer assemblies cooperatively defining a receiving space. One of the bottom, top and intermediate layer assemblies has a mounting surface. A sensor unit is disposed in the receiving space and includes a light emitter, a light receiver, and a rolling member for changing the amount of light received by the light receiver. A conducting unit includes a power supply section, a power supply conducting element disposed on the mounting surface, and a signal conducting element disposed on the mounting surface and spaced apart from the power supply conducting element.

A sensor switch includes a ceramic body, first and second conductive units and a conductive member. The ceramic body includes intermediate, bottom and top layer assemblies cooperatively defining a chamber. The intermediate layer assembly has an intermediate layer inner peripheral surface. The first conductive unit has a first conductive layer covering the intermediate layer inner peripheral surface. The second conductive unit has a second conductive layer protruding from the bottom layer top surface and spaced apart from the first conductive layer. The conductive member is rollably disposed in the chamber and is limited by the second conductive layer for forming a current path with the first and second conductive layers.

A sensor switch includes a ceramic body, first and second conductive units and a conductive member. The ceramic body includes intermediate, bottom and top layer assemblies cooperatively defining a chamber. The intermediate layer assembly has an intermediate layer inner peripheral surface. The first conductive unit has a first conductive layer covering the intermediate layer inner peripheral surface. The second conductive unit has a second conductive layer protruding from the bottom layer top surface and spaced apart from the first conductive layer. The conductive member is rollably disposed in the chamber and is limited by the second conductive layer for forming a current path with the first and second conductive layers.

A sensor switch includes a ceramic body, first and second conductive units and a conductive member. The ceramic body includes intermediate, bottom and top layer assemblies cooperatively defining a chamber. The intermediate layer assembly has an intermediate layer inner peripheral surface. The bottom layer assembly has a bottom groove communicating with the chamber. The first conductive unit has a first conductive layer covering the intermediate layer inner peripheral surface. The second conductive unit has at least one second conductive layer disposed in the bottom groove. The conductive member is rollably disposed in the chamber for forming a current path with the first and second conductive layers.