A quick attach bracket includes a first portion and a second portion aligned substantially perpendicular with the first portion, a retaining ridge disposed across the first portion and extending in the direction of the second portion, and a hub disposed on the second portion and extending in the direction of the first portion. The retaining ridge is configured to receive a flange of a structure. The hub includes a sidewall that extends from the second portion in the direction of the first portion, a façade aligned with the second portion, and a rounded portion connecting the sidewall and the façade to assist with installation of the hub into a recess or through-hole of the structure. The quick attach bracket is installable by hand via hooking of the retaining ridge on the flange and insertion of the hub into the recess or through-hole.

A flange for an electrical bushing is specified, comprising a lower part and an upper part configured to be mechanically affixed to one another, wherein the lower part and the upper part are arranged one above the other in an axial direction of the flange, and one of the lower part and the upper part surrounds a portion of the other one of the lower part and the upper part at least in regions in a radial direction, thereby forming a positive connection against relative movement of the upper part with respect to the lower part in a non-axial direction of the flange.

Furthermore, an electrical bushing is specified.

A high-voltage feed-through contains a securing flange for securing the high-voltage feed-through to a wall. The securing flange contains a retaining part and a moving part, wherein the moving part is mounted relative to the retaining part such that it can rotate in relation to a longitudinal direction of the high-voltage feed-through. An electrical device contains a fluid-tight housing and the high-voltage feed-through. A device connection part is provided for receiving and contacting the high-voltage feed-through.

For example, in an earphone in which left and right earphone units are connected by a cable and a remote part or a battery part is interposed on the cable, a bush structure is provided to a part where the cable is led out of the remote part and the like and suppresses the occurrence of disconnection in the vicinity of the lead-out part. The bush structure is provided to a lead-out part 5a of a cable 4 and includes a bush body 2 provided to the lead-out part and formed with a first through hole 2a2 where the cable is inserted. The first through hole gradually increases in diameter toward a lead-out direction of the cable.

The invention relates to a transparent silicone rubber cover for animal mitigation a pliable cover made from a ultraviolet stable non-conductive polymer to encapsulate an electrical bushing used as a conduit for an electrical lead, the lead attached to the bushing via a connector device and a plurality of spaced apart non-electrically conductive button-snaps and associated holes along flanges on each side of the opening to secure the cover circumferentially around the bushing, and wherein a top portion of the cover contains a centrally located port that provides access for an electrical lead line to the bushing.

A cap assembly for an electrical pass-through includes a cap portion and a claw portion. The cap portion has a cap base that defines a cable axis. The cap portion has a plurality of angled lock surfaces and twist surfaces adjacent to the lock surfaces. The claw portion has a claw body with a claw opening that the cable axis extends through. The claw portion also has fingers that extend from the claw body towards the cap portion. The cap portion is movable relative to the claw portion to a locked position wherein each of the fingers engages one of the lock surfaces and is deflected toward the cable axis and each of the fingers engages one of the twist surfaces and is rotated relative to the claw base.

A electrical pass-through includes a housing and a cap assembly. The housing has a cap lock and a cable opening that extends through the housing and that defines a cable axis. The cable opening has a non-circular cross-sectional shape when viewed perpendicularly relative to the cable axis. The cap assembly has a cap base and a cap catch. A cap opening extends through the cap base and the cable axis extends through the cap opening. The cap assembly movable relative to the housing to a locked position wherein the cap catch engages the cap lock to retain the cap assembly in the locked position relative to the housing.

The present invention relates to a feedthrough (200) adapted for use within a passage (300). The feedthrough (300) has a body (202) having a first interface region (204) and a second interface region (206). The first interface region (204) comprises a platform region (214). At least one electrical conductor (212) extends through the body (202) and out of the body (202) to both the first interface region (204) and the second interface region (206). A printed circuit board (216) is attached to the platform region (214). At least one pin hole (234) defined by the printed circuit board (216) is configured to accept the at least one electrical conductor (212).

A cable-gland system provides a sealing function to openings in an electronic chassis that receive cables. The cable-gland system comprises a plurality of individual cable glands. Each of the plurality of individual cable glands includes an exterior end to be positioned adjacent an exterior of the chassis, and an interior end for positioning within the chassis. Each of the plurality of individual cable glands includes a through-hole extending between the exterior and interior ends for receiving one of the cables, and an outer surface between the exterior and interior ends. Each of the plurality of individual cable glands has a male projection on one side of the outer surface and a female recess on an opposing side of the outer surface. The cable glands are connectable to form the cable-gland system by mating the male projection on one cable gland with the female recess of an adjacent cable gland.

An insulation assembly comprises an insulation pipe, an insulation umbrella group, and an insulation base. The insulation pipe has a first end and a second end opposite to the first end. The insulation umbrella group is formed on an outer wall of the insulation pipe. The insulation base is made of an insulating material and connected to the first end of the insulation pipe.