A slide rail assembly adaptable for support posts which are varying distances apart includes a sliding rail and a supporting device. The supporting device includes a supporting bracket and a sliding bracket. The supporting bracket defines two sliding slots along an extending direction of the supporting bracket, and the sliding bracket defines two sliding portions corresponding to the sliding slot. The sliding bracket is slidably connected to the supporting bracket through the sliding portion and the sliding slot, the sliding bracket is mounted to the sliding rail. A supporting device is also disclosed.

A coaxial cable connector with a grounding insert that is between a fastener and and a post to provide electrical continuity therebetween.

An earthing contact for creating an electrical contact between an earthing cable and a component comprising an electroconductive component surface, comprises an electroconductive contact plate and a fixing element, the contact plate having a first contact surface for placing the contact plate on the component surface, a second contact surface for placing an earthing cable on the contact plate, and a passage for the fixing element, the fixing element comprising a fixing section for fixing the fixing element in the component, a pressure element for pressing the contact plate onto the component surface and a holding section for arranging in the passage of the contact plate, when the pressure element presses the contact plate onto the component surface, the first contact surface being tiltable in relation to the fixing section by a tilting angle of at least 6 when the holding section is arranged in the passage.

Apparatuses and methods disclosed herein include an electrical connector. The electrical connector may include an upper cap configured to engage with an end cap, the upper cap including an upper cap insert that is independent from the upper cap in at least one axis of motion. The end cap may include one or more contact blades configured to receive an insulated cable. As the upper cap engages with the end cap the upper cap insert may press the insulated cable onto the one or more contact blades such that the one or more contact blades are in electrical connection with one or more conductors in the insulated cable.

An apparatus and method for enabling removable coupling of conducting lines in a powerline assembly is disclosed. In one embodiment, a dead-end shoe apparatus is disclosed that comprises a capping mechanism, coupling mechanism, and connection clamp, the connection clamp facilitating the removable coupling of conducting lines of variable diameters to the apparatus. In another embodiment, a method of selectively transmitting electricity in a powerline assembly is disclosed, wherein conducting lines are removably coupled to dead-end shoe apparatuses to facilitate the transmission.

A slide rail assembly includes a sliding rail and a supporting device. The supporting device includes a supporting bracket and a sliding bracket. The supporting bracket defines at least one sliding slot along an extending direction of the supporting bracket, and the sliding bracket defines at least one sliding portion corresponding to the at least one sliding slot. The sliding bracket is slidably connected to the supporting bracket through the at least one sliding portion and the at least one sliding slot, the sliding bracket is mounted to the sliding rail. The supporting device is also disclosed.

A ground block may include a metal ground plate and a ground wire fixedly coupled with the metal ground plate. The ground wire is configured to be non-detachable from the ground block during normal use of the ground block. The ground block may be formed by soldering, brazing, or clamping the ground wire to the metal ground plate.

A combination terminal (1) has a first terminal (10) overlapping a second terminal (110) in a plate thickness direction. The first terminal (10) includes a base (41) and two inclined walls (20) intersecting surfaces of the base (41) from both lateral ends of the base (41) and forming an insertion/accommodation space (C) having a trapezoidal shape. The second terminal (110) includes an inserting piece (132) that overlaps the base (41) when inserted into the insertion/accommodation space (C). A locking claw (132A) on the inserting piece (132) locks the base (41) by overlapping the inserting piece (132) on the base plate (41). An external force absorbing tapered portion (133) projects laterally from the inserting piece (132) and comes into surface contact with one of the inclined walls (42) with the locking portion (132A) locked to the base (41).

The technology relates to an electric current conducting assembly, more specifically with the incorporation of a dead end shoe.

The invention relates to a direct burial ground lug. The lug is preferably constructed of a phosphor bronze material. The block may have two through holes to install two conductors, rods, cables, and the like. Stainless steel threaded screws are used to hold the rod and ground conductor in a stable condition. The threaded screws insert into threaded holes positioned perpendicular to the through holes. The direct burial ground lug allows the ground rod and ground conductor to be connected for a continuous grounding system.