A connector assembly includes a first connector having a first insulator and a first contact, a second connector having a second insulator and a second contact and fitted to the first connector along a fitting direction, a lever member rotatably held by one of the first insulator and the second insulator, a push member used to press the first contact and the second contact against each other, a first cam mechanism moving the first insulator and the second insulator relatively along the fitting direction in conjunction with rotation of the lever member, and a second cam mechanism moving the push member in conjunction with rotation of the lever member.

A clamping device includes: a first jaw mounted on a first support member, a second jaw mounted on a second support member, movable relative to the first support member to bring the first and second jaws toward each other in a clamping position, an actuation member adapted to move the second support member relative to the first support, and a compression member such as a spring between the actuation member and second support member. Advantageously, the first jaw is hook-shaped and the second jaw is ring-shaped. Advantageously, at least the second jaw, the compression member, and a handle of the actuation member have substantially rotational symmetry around a main axis.

A grounding segment for a segmented grounding electric device, including a plurality of segment single bodies disposed in a matched manner, wherein a curved concave surface is formed in an outer side surface of each segment single body; a chute is formed in the curved concave surface; an interior of the chute is in sliding connection with an elastic member; two ends of the elastic member are respectively connected to sliders; the sliders are in sliding connection with the interior of the chute; each slider is movably connected to a curved fixing member matching a grounding conductor; the curved fixing member is made of a conductive material applicable to grounding conductors of different sizes; and a locking apparatus is connected between the plurality of segment single bodies. A user conveniently transports and mounts the grounding segment to reduce a land excavation area. Universality of the grounding segment is improved.

A terminal cassette for electrically connecting a plurality of feeder cables includes an electrical connector with a plurality of electrical contacts and a double locking system securing a feeder cable cassette. The double locking system has a locking bracket and a sliding locking device. The locking bracket pivots and engages the feeder cable cassette. The sliding locking device secures the locking bracket in a locked position.

A connector assembly is provided. The connector assembly includes a housing having a first end that includes one or more mechanical interfaces thereon. The at least one mechanical interface configured to selectively engage a corresponding mechanical interface on an electrosurgical generator. A second end is configured to selectively engage an end of an electrosurgical cable to couple the electrosurgical generator to an electrosurgical instrument. A plurality of splines extends along an interior of the housing and is configured for electrical communication with a plurality of corresponding electrical conductors of the electrosurgical cable.

A female terminal includes a terminal body and a slider displaced relative to the terminal body. The terminal body includes a connecting tab deformable in a pressing direction crossing an inserting direction in which an electric wire is inserted and contactable with the electric wire. The slider is slidable between separated and overlapping positions. The slider includes a narrow portion that protrudes inward and has a less inner dimension in the pressing direction, and a wide portion in front of the narrow portion with respect to the inserting direction and has a greater inner dimension in the pressing direction than the narrow portion. The connecting tab contacts the electric wire when the narrow portion overlaps the connecting tab at the overlapping position. The slider includes a sloped guide surface that is angled at in front of the wide portion to spread further than the wide portion toward the front.

A female terminal 12 includes a terminal body 15 and a slider 16. The terminal body 15 includes an upper connecting piece 18A and a lower connecting piece 18B connected to a core wire 13 of an electric wire 11. The slider 16 is movable in a front-rear direction relative to the terminal body 15. The slider 16 includes an upper abutting portion 25A and a lower abutting portion 25B. The upper connecting piece 18A includes an upper protrusion 51A that abuts against the upper abutting portion 25A. The lower connecting piece 18B includes a lower protrusion 51B that abuts against the lower abutting portion 25B.

A Network device includes an interface configured to be coupled to a transmission line that carries content and a content processing module. The content processing module includes circuitry configured to route content communicated via the transmission line to one or more secondary network devices. The content processing module further includes a contact assembly. The contact assembly includes an upper housing and a lower housing that define a recessed region therebetween. The contact assembly includes a screw. The head of the screw is disposed above the upper housing and the threaded portion of the screw extends through a threaded opening in the upper housing and into the recessed region. A resilient member of the contact assembly is disposed within the recessed region and has an end that is in mechanical communication with the end of the screw. The contact assembly further includes a plunger assembly. The plunger assembly is disposed below the resilient member and includes a conductive pin disposed therein that is urged by the resilient against center pin of the coaxial connector. Adjustment of the screw facilitates adjusting an amount of force applied by the pin against a center conductor of the transmission line.

A cam-type wire connector includes a housing, a conductor, and a lever. The housing has a plurality of insertion holes; the conductor comprises a conductive member and a leaf spring, the leaf spring has a carrier plate and a wire clamping portion that is formed with a plurality of windows. Wherein an elastic member is formed with the wire clamping portion for blocking the window; the lever has an operating portion and a toggle portion for cooperating with the leaf spring, the operating portion is constructed with a cam to allow the lever to swing without a fixed axis. When the lever is changed from an initial position to an actuate position, the elastic member is moved away from the carrier plate and an insertion channel is formed for allowing the wire to enter the window. The insertion channel is located in the interval between the second positioning surface and the fixed surface.

A connection terminal for connecting an electric conductor includes: a housing; a current bar arranged in the housing; a clamping spring arranged in the housing for clamping the conductor to be connected against the current bar; and an actuation element for transferring the clamping spring into a clamping position and into an open position. The actuation element has a rotation element mounted about a first axis of rotation and a lever element mounted about a second axis of rotation. The clamping spring is mounted on the rotation element and the clamping spring follows a rotational movement of the rotation element at least in regions. The rotation element engages with the lever element such that during a rotational movement of the lever element about the second axis of rotation, the rotation element rotates about the first axis of rotation arranged spaced apart from the second axis of rotation.