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.

A coaxial switch includes a conductive housing defining a central bore and a front plane that is oriented transverse to the central bore, a switch assembly including a stationary contact including a stationary engagement end, a stationary coupling end opposite the stationary engagement end, a movable contact including a movable engagement end, a movable coupling end opposite the movable engagement end, and a planar conductor engagement region positioned adjacent to the movable engagement end, where the movable engagement end is positionable in an engaged position and a disengaged position, and a dielectric front pad positioned between the conductive housing and the movable contact, where the dielectric front pad defines a central aperture through which the planar conductor engagement region has an unobstructed line of sight with the front plane of the conductive housing.

A coaxial switch includes a conductive housing defining a central bore and a front plane that is oriented transverse to the central bore, a switch assembly including a stationary contact including a stationary engagement end, a stationary coupling end opposite the stationary engagement end, a movable contact including a movable engagement end, a movable coupling end opposite the movable engagement end, and a planar conductor engagement region positioned adjacent to the movable engagement end, where the movable engagement end is positionable in an engaged position and a disengaged position, and a dielectric front pad positioned between the conductive housing and the movable contact, where the dielectric front pad defines a central aperture through which the planar conductor engagement region has an unobstructed line of sight with the front plane of the conductive housing.

A small compact magnetic latching shut-off switch having a lightweight float, angled geometry, and quick/convenient small-stroke manual float reset. A lower float magnet and a second upper magnet affecting electrical circuit continuity have initial offset positioning that minimizes their magnetic attraction to one another. When a predetermined small amount of fluid accumulates below it, the float begins forward rotation and attraction between magnets thereafter multiplies until gravitational force on the float and forces maintaining initial raised positioning of the upper magnet are overcome, resulting in strong latched snap-lock connection between upper and lower magnets, an abrupt/reliable/strong tripped state that remains until manual float reset occurs. Transparent float housing reveals drain line clogging potential, and structural features of the float and housing enable raised tripping point adjustment, promoting switch reliability. Switch use with a tapered threaded adapter seal also provides fast and stable installation, and greater adaptation to different work environments.

A small compact magnetic latching shut-off switch having a lightweight float, angled geometry, and quick/convenient small-stroke manual float reset. A lower float magnet and a second upper magnet affecting electrical circuit continuity have initial offset positioning that minimizes their magnetic attraction to one another. When a predetermined small amount of fluid accumulates below it, the float begins forward rotation and attraction between magnets thereafter multiplies until gravitational force on the float and forces maintaining initial raised positioning of the upper magnet are overcome, resulting in strong latched snap-lock connection between upper and lower magnets, an abrupt/reliable/strong tripped state that remains until manual float reset occurs. Transparent float housing reveals drain line clogging potential, and structural features of the float and housing enable raised tripping point adjustment, promoting switch reliability. Switch use with a tapered threaded adapter seal also provides fast and stable installation, and greater adaptation to different work environments.

A switch device structure includes an assembly of a main body and an operation body. An electrical connection module and an elastic unit are mounted on the main body. The contact arm of the electrical connection module has a first member and/or a second member with variable arrangement position. According to the position or motion of the operation body, the elastic unit provides an elastic force to push the contact arm of the electrical connection module into a contacting circuit closed state or make the elastic unit separate from the contact arm to form a circuit open state. The arrangement form of the first member and/or the second member of the contact arm of the electrical connection module is variable in accordance with the specification of the switch to achieve NO mode and NC mode.

A switch device structure includes an assembly of a main body and an operation body. An electrical connection module and an elastic unit are mounted on the main body. The contact arm of the electrical connection module has a first member and/or a second member with variable arrangement position. According to the position or motion of the operation body, the elastic unit provides an elastic force to push the contact arm of the electrical connection module into a contacting circuit closed state or make the elastic unit separate from the contact arm to form a circuit open state. The arrangement form of the first member and/or the second member of the contact arm of the electrical connection module is variable in accordance with the specification of the switch to achieve NO mode and NC mode.

A switching contact assembly for an electrical switching element includes a contact bridge, a base, and a spring assembly. The contact bridge is attached to the base with the spring assembly between the contact bridge and the base. The contact bridge attached to the base is resilient in a direction opposite a switching direction.

A switching contact assembly for an electrical switching element includes a contact bridge, a base, and a spring assembly. The contact bridge is attached to the base with the spring assembly between the contact bridge and the base. The contact bridge attached to the base is resilient in a direction opposite a switching direction.

A switch in an electronic device includes a substrate, a first signal line, a second signal line, and a ground bridge. The first signal line is on the substrate and extends in a first direction. The second signal line is on the substrate and is spaced apart from the first signal line in a first direction parallel with the first signal line to branch the wireless communication signal at a first point and a second point of the first signal line. The ground bridge is at least partially movable in a space between the first signal line and the second signal line. A first capacitor is between a first point of the first signal line and one end of the second signal line, and a second capacitor is between a second point of the first signal line and the other end of the second signal line.