An electrical switchgear includes: a housing; at least one first contact mounted in the housing; at least one second contact translationally movable within the housing in a translational movement direction; a switchgear control mechanism having a first rotary element having a first rotation axis and a second rotary element having a second rotation axis; and a link element pivoted on one end thereof to the first rotary element and on an other end thereof to the at least one second contact. The first and the second rotation axes are arranged substantially perpendicular to each other. The second rotation axis is arranged essentially in parallel to the translational movement direction of the at least one second contact. The first and the second rotary elements engage such that a rotation of the second rotary element is transmitted to the first rotary element.

The present invention refers to a detachable knob that can be easily and quickly detached and attached repeatedly from a switchgear. The detachable knob includes: a knob housing configured to be manually rotated about a rotation axis “X”, and anchoring means placed inside the knob housing. A plunger is arranged inside the housing and is axially displaceable along the rotation axis “X”, wherein the plunger is configured to bring the anchoring means from their engaged position to their disengaged position and vice versa. The plunger is axially displaceable relative to the anchoring means between two stable axial positions at axis “X”, namely: a pushed-down position in which the plunger remains stable and force the anchoring means to their engaged or to their disengaged position, and a release position in which the plunger remains stable and in which the anchoring means are in the other position.

The construction includes a rotary handle turnable around a first pivot axis between an open- and a closed-position, a locking latch turnable around a second pivot axis between a locked position and a released position, a fixed bottom ring, a first locking pin movable in the longitudinal direction with the locking latch between a first position in which turning of the rotary handle is allowed and a second position in which turning of the rotary handle is allowed and a second position in which turning of the rotary handle is prevented. A second locking pin is movable between a first position in which turning of the locking latch between a locked-position and a released-position is allowed and a second position in which turning of the locking latch into the locked-position is prevented.

An electrical switchgear (10) is disclosed, which comprises a housing (12, 14, 16), at least one first contact (18, 20) mounted in the housing (14), at least one second contact (22, 24) being translationally movable within the housing (12, 14), a switchgear control mechanism comprising a first rotary element (26) having a first rotation axis (28) and a second rotary element (30) having a second rotation axis (32), and a link element (34) pivoted on one end to the first rotary element (26) and on the other end to the at least one second contact (22, 24), wherein the first and the second rotation axes (28, 32) are arranged substantially perpendicular to each other, wherein the second rotation axis (32) is arranged essentially in parallel to the translational movement direction (36) of the at least one second contact (22, 24), wherein the first and the second rotary elements (26, 30) engage such that a rotation of the second rotary element (30) is transmitted to the first rotary element (26), and wherein the link element (34) transmits a rotational movement of the first rotary element (26) to a translational movement of the at least one second contact (22, 24).

An electrical switchgear (10) is disclosed, which comprises a housing (12, 14, 16), at least one first contact (18, 20) mounted in the housing (14), at least one second contact (22, 24) being translationally movable within the housing (12, 14), a switchgear control mechanism comprising a first rotary element (26) having a first rotation axis (28) and a second rotary element (30) having a second rotation axis (32), and a link element (34) pivoted on one end to the first rotary element (26) and on the other end to the at least one second contact (22, 24), wherein the first and the second rotation axes (28, 32) are arranged substantially perpendicular to each other, wherein the second rotation axis (32) is arranged essentially in parallel to the translational movement direction (36) of the at least one second contact (22, 24), wherein the first and the second rotary elements (26, 30) engage such that a rotation of the second rotary element (30) is transmitted to the first rotary element (26), and wherein the link element (34) transmits a rotational movement of the first rotary element (26) to a translational movement of the at least one second contact (22, 24).

An electrical disconnect switch including an over-rotation protective feature to protect the load switch from damage is disclosed. The electrical disconnect switch may include an enclosure, a load switch, and a handle assembly coupled to the load switch. The disconnect switch may include a detent between the handle assembly and the load switch so that during excessive rotation or torqueing the handle assembly is permitted to decouple or break-away from the load switch to prevent excessive stress from being transferred to the load switch and thus prevent any damage to the load switch.

A circuit breaker assembly includes a circuit breaker including a housing and a handle extending from the housing, with the handle being movable between an on position and an off position. The assembly includes a handle mechanism connected to the housing of the circuit breaker. The handle mechanism includes a base, a slider slidably connected to the base and including first and second spaced apart arms with the handle of the circuit breaker at least partially between the first and second arms, and a spring on the slider. The slider is movable between a first position with the handle in the on position and a second position with the handle in the off position. The handle engages the spring with the handle in the on position and the slider in the first position.

A circuit breaker assembly includes a circuit breaker including a housing and a handle extending from the housing, with the handle being movable between an on position and an off position. The assembly includes a handle mechanism connected to the housing of the circuit breaker. The handle mechanism includes a base, a slider slidably connected to the base and including first and second spaced apart arms with the handle of the circuit breaker at least partially between the first and second arms, and a spring on the slider. The slider is movable between a first position with the handle in the on position and a second position with the handle in the off position. The handle engages the spring with the handle in the on position and the slider in the first position.

The construction includes a rotary handle turnable around a first pivot axis between an open- and a closed-position, a locking latch turnable around a second pivot axis between a locked position and a released position, a fixed bottom ring, a first locking pin movable in the longitudinal direction with the locking latch between a first position in which turning of the rotary handle is allowed and a second position in which turning of the rotary handle is allowed and a second position in which turning of the rotary handle is prevented. A second locking pin is movable between a first position in which turning of the locking latch between a locked-position and a released-position is allowed and a second position in which turning of the locking latch into the locked-position is prevented.

An operating attachment for arrangement on a predefinable switching device and for operating a pivotable switching device toggle of the switching device includes: a one-sided open housing positionable on the switching device; a rotatable shaft having a rotation axis; a manual operating part, the manual operating part being situated on the rotatable shaft; a switch-on projection for pivoting the switching device toggle in a first pivot direction, the switch-on projection being situated on the rotatable shaft; a switch-off projection for pivoting the switching device toggle in a second pivot direction opposite the first pivot direction, the switch-off projection being situated on the rotatable shaft; and a housing stop for contacting a stop edge of the switch-off projection, the housing stop being situated in the one-sided open housing. The switch-off projection yields resiliently such that the switch-off projection is bent for contact with the housing stop.