A disconnector having a stack of modular contact boxes surmounted by a snap-action switch box, each modular contact box including a rotary contact and two fixed contacts which are accessible from the outside. The switch box further includes a driven indexing element which is rotatably associated with a spindle loading support and at least one spring connected between the two in order to load them elastically with respect to each other following a mutual rotation about the central axis. The disconnector has a single actuation rod which passes through all the modular contact boxes coaxially to the central axis and is fixed in rotation to all the rotary contacts.

Apparatuses, systems, and methods of manufacturing are described that provide a rotary switch. An example rotary switch includes a substrate and a plurality of electrical contacts supported by the substrate. The rotary switch includes a resistor network of a plurality of resistors in electrical communication with the plurality of electrical contacts and a commutator that moves relative to the substrate along the plurality of electrical contacts. The commutator electrically connects a pair of adjacent electrical contacts so as to modify an output voltage of the rotary switch corresponding to a position of the rotary switch. Each resistor of the resistor network is positioned so as to electrically connect a respective pair of adjacent electrical contacts. Each resistor in the resistor network comprises a resistance value that is different from resistance values of other resistors in the resistor network.

Apparatuses, systems, and methods of manufacturing are described that provide a rotary switch. An example rotary switch includes a substrate and a plurality of electrical contacts supported by the substrate. The rotary switch includes a resistor network of a plurality of resistors in electrical communication with the plurality of electrical contacts and a commutator that moves relative to the substrate along the plurality of electrical contacts. The commutator electrically connects a pair of adjacent electrical contacts so as to modify an output voltage of the rotary switch corresponding to a position of the rotary switch. Each resistor of the resistor network is positioned so as to electrically connect a respective pair of adjacent electrical contacts. Each resistor in the resistor network comprises a resistance value that is different from resistance values of other resistors in the resistor network.

A seat belt fastened/unfastened state detection switch includes: a printed substrate that includes a circuit for detecting a fastened/unfastened state of a seat belt; a rotor that is rotatably attached to the printed substrate, includes a contact portion, the contact portion coming into contact with a tongue of the seat belt, and rotates in a forward direction in accordance with pushing of the tongue into a buckle; a spring that makes the rotor, the rotor being in a rotated state in the forward direction, rotate in a reverse direction in accordance with pulling of the tongue from the buckle; and an electric brush that is attached to a surface of the rotor, the surface facing the printed substrate, and includes a leg portion whose contact/non-contact state with respect to a conductive part of the circuit changes depending on a rotation state of the rotor.

A switch device includes: a case provided with a through-hole; an operation member having an operation shaft to be inserted into the through-hole of the case, and an operation head provided at an outer end of the operation shaft; and a protective buffer member which has elasticity and is attached to an outer surface of the case. The protective buffer member includes a storage which has a bottom facing an inner end surface of the operation head and stores a periphery of the operation head.

A switch device includes: a case provided with a through-hole; an operation member having an operation shaft to be inserted into the through-hole of the case, and an operation head provided at an outer end of the operation shaft; and a protective buffer member which has elasticity and is attached to an outer surface of the case. The protective buffer member includes a storage which has a bottom facing an inner end surface of the operation head and stores a periphery of the operation head.

A switch module for an electronic device detects translational inputs and defines at least portion of a conductive path from an input surface of the electronic device to a processing unit of the electronic device. The switch module may be a component of a crown assembly for detecting rotational inputs, translational inputs, touch inputs and/or biological signals such as electrocardiogram (ECG) signals. The switch module may include a conductive dome and a friction guard that is positioned between the conductive dome and the actuation member of the crown assembly. The conductive dome and/or the friction guard may define at least a portion of the conductive path from the input surface to the processing unit.

A switch module for an electronic device detects translational inputs and defines at least portion of a conductive path from an input surface of the electronic device to a processing unit of the electronic device. The switch module may be a component of a crown assembly for detecting rotational inputs, translational inputs, touch inputs and/or biological signals such as electrocardiogram (ECG) signals. The switch module may include a conductive dome and a friction guard that is positioned between the conductive dome and the actuation member of the crown assembly. The conductive dome and/or the friction guard may define at least a portion of the conductive path from the input surface to the processing unit.

Disclosed herein is a control element, which can be arranged on a capacitive surface, for controlling a function of the capacitive surface, comprising a carrier structure, a rotary element rotatable about an axis of rotation with respect to the carrier structure, comprising at least one electrically conductive area, at least one electrically conductive contact element arranged on the carrier structure, wherein the contact element comprises a contact area which is arranged at least in some areas on an underside of the control element, so that the contact area, when the control element is arranged on the capacitive surface, is arranged at least partially touching the capacitive surface, wherein the electrically conductive area of the rotary element is in contact with a contact element in at least one rotational position of the rotary element. The rotary element can be moved along the axis of rotation with respect to the carrier structure.

Disclosed herein is a control element, which can be arranged on a capacitive surface, for controlling a function of the capacitive surface, comprising a carrier structure, a rotary element rotatable about an axis of rotation with respect to the carrier structure, comprising at least one electrically conductive area, at least one electrically conductive contact element arranged on the carrier structure, wherein the contact element comprises a contact area which is arranged at least in some areas on an underside of the control element, so that the contact area, when the control element is arranged on the capacitive surface, is arranged at least partially touching the capacitive surface, wherein the electrically conductive area of the rotary element is in contact with a contact element in at least one rotational position of the rotary element. The rotary element can be moved along the axis of rotation with respect to the carrier structure.