A system for gripping the outside jacket of a cable including a flexible gripper having a serpentine shape, teeth on one side and retention channels on another side. The retention channels each receive a cable tie.

A cable sealing device including an attaching part securable to the cable; a fixation part adapted to be mountable on the attaching part; and a sealing part. The attaching part includes outer locking faces. The fixation part has inner abutment faces adapted to co-operate with the outer locking faces to axially and rotationally lock the fixation part relative to the attaching part. The sealing part includes an inner seal and an outer seal. The sealing part also includes a second securing arrangement that is configured to engage a first securing arrangement of the fixation part to axially and rotationally lock the sealing part to the fixation part.

A cable sealing device including an attaching part securable to the cable; a fixation part adapted to be mountable on the attaching part; and a sealing part. The attaching part includes outer locking faces. The fixation part has inner abutment faces adapted to co-operate with the outer locking faces to axially and rotationally lock the fixation part relative to the attaching part. The sealing part includes an inner seal and an outer seal. The sealing part also includes a second securing arrangement that is configured to engage a first securing arrangement of the fixation part to axially and rotationally lock the sealing part to the fixation part.

This application provides a display cable management structure and a display. The display cable management structure includes a bracket with a groove, the groove forms an arrangement space for accommodating a cable, and the groove is provided with at least one stop block for preventing the cable from falling out of the arrangement space; and the at least one stop block is movably installed in the groove in an extending direction of the groove, and the at least one stop block separates an opening of the groove into two cable passing openings for the cable to pass in and out of the arrangement space.

This application provides a display cable management structure and a display. The display cable management structure includes a bracket with a groove, the groove forms an arrangement space for accommodating a cable, and the groove is provided with at least one stop block for preventing the cable from falling out of the arrangement space; and the at least one stop block is movably installed in the groove in an extending direction of the groove, and the at least one stop block separates an opening of the groove into two cable passing openings for the cable to pass in and out of the arrangement space.

Charging station for an electric or hybrid vehicle includes a wall, an electric cable, and at least one clamping collar fixed to the wall. The clamping collar has a shape that allows there to be, in a plane perpendicular to the direction in which the cable extends, at least three points of contact between the cable and the assembly formed by the clamping collar and the wall, so as to clamp the cable against the wall.

In some examples, a feedthrough assembly for a medical device may include a ferrule. The ferrule defines an aperture extending through the ferrule from an outer end surface defined by the ferrule to an end inner end surface defined by the ferrule. The aperture includes a first portion having a first diameter and a second portion having a second diameter less than the first diameter. The aperture defines a longitudinal axis extending therethrough and the ferrule defines a ledge between the first and second portions of the aperture that extends radially inward toward the longitudinal axis. The feedthrough assembly further may include a conductive pin within the aperture and an insulating member surrounding at least a portion of the pin. The insulating member may electrically insulate the conductive pin from the ferrule, and the ledge and a surface of the insulating member adjacent the ledge may define a space therebetween.

A backfilling protection structure for underground installation of a power cable joint, including: a lower casing part forming a base of the backfilling protection structure and configured to be laid on soil, an upper casing part configured to be arranged on top of the lower casing part, wherein the lower casing part and the upper casing part are configured to be attached to each other to form an elongated body, wherein the body defines a channel for receiving a power cable joint, wherein the channel extends through the backfilling protection structure from a first end opening at a first axial end of the backfilling protection structure to a second end opening at a second end of the backfilling protection structure opposite to the first end, wherein the upper casing part is provided with a plurality of top openings distributed along the length of the body and extending into the channel, and a plurality of grids covering a respective top opening, each grid being configured to filter out solid objects larger than a predetermined size from entering through the respective top opening into the channel but enabling sand to enter the channel to bury the power cable joint inside the backfilling protection casing.

A backfilling protection structure for underground installation of a power cable joint, including: a lower casing part forming a base of the backfilling protection structure and configured to be laid on soil, an upper casing part configured to be arranged on top of the lower casing part, wherein the lower casing part and the upper casing part are configured to be attached to each other to form an elongated body, wherein the body defines a channel for receiving a power cable joint, wherein the channel extends through the backfilling protection structure from a first end opening at a first axial end of the backfilling protection structure to a second end opening at a second end of the backfilling protection structure opposite to the first end, wherein the upper casing part is provided with a plurality of top openings distributed along the length of the body and extending into the channel, and a plurality of grids covering a respective top opening, each grid being configured to filter out solid objects larger than a predetermined size from entering through the respective top opening into the channel but enabling sand to enter the channel to bury the power cable joint inside the backfilling protection casing.

A poke-in terminal includes a main body, a tab terminal socket at a mating end, and a wire socket at a terminating end. The tab terminal socket includes walls forming a tab terminal receptacle configured to receive a tab terminal. Upper and lower beam contacts extend into the tab terminal receptacle to interface with the tab terminal. The wire socket includes walls forming a wire receptacle configured to receive a wire. Poke-in retention beams extend into the wire receptacle to interface with the wire when poked into the wire socket. The wire socket includes a wire release element configured to be actuated to release the poke-in retention beams from the wire.