A high-voltage bushing can be plugged into a bushing socket of an electrical device of a high-voltage installation. The high-voltage bushing has an internal conductor, an insulating body which at least partly encloses the internal conductor, and a plug-in section for plugging the high-voltage bushing into the bushing socket. A heat pipe is provided in the internal conductor. The heat pipe is at least partly filled with a vaporizable cooling liquid and the heat pipe extends into the plug-in section. A high-voltage installation having the high-voltage bushing is also provided.

A cable structure includes: a plurality of cables each including a conductor part and an electrically-insulative covering part, each conductor part being exposed in a part where the covering part at one end thereof is removed; and a cable fixing part formed by resin molding and configured to hold the plurality of cables while the ends of the plurality of cables exposing the conductor parts are aligned, wherein the cable fixing part includes a bottom face opening formed on a bottom face side facing a member to which the cables are connected and a top face opening formed on a top face side opposing the bottom face, the bottom face side and the top face side exposing the conductor parts.

A cable structure includes: a plurality of cables each including a conductor part and an electrically-insulative covering part, each conductor part being exposed in a part where the covering part at one end thereof is removed; and a cable fixing part formed by resin molding and configured to hold the plurality of cables while the ends of the plurality of cables exposing the conductor parts are aligned, wherein the cable fixing part includes a bottom face opening formed on a bottom face side facing a member to which the cables are connected and a top face opening formed on a top face side opposing the bottom face, the bottom face side and the top face side exposing the conductor parts.

A power cable termination assembly can include a cable end; a connector end; a longitudinal axis that extends between the cable end and the connector end; a cable securing mechanism; a dielectric material space that includes a volume where the dielectric material space is disposed axially at least in part between the cable securing mechanism and the connector end; and a movable component that moves responsive to a pressure differential where movement of the movable component alters the volume of the dielectric material space.

A power cable termination assembly can include a cable end; a connector end; a longitudinal axis that extends between the cable end and the connector end; a cable securing mechanism; a dielectric material space that includes a volume where the dielectric material space is disposed axially at least in part between the cable securing mechanism and the connector end; and a movable component that moves responsive to a pressure differential where movement of the movable component alters the volume of the dielectric material space.

The present disclosure provides a termination band and a method of manufacturing the termination band, which includes a strap and a head. When secured, the head comprises an upper wall, lower wall and opposed side walls formed as a loop with the strap extending therefrom. The termination band is therefore formed as a two-piece component, rather than a single piece as in the prior art. Advantageously this enables the strap and the head to be formed from stainless steel strip having the same width as the head and the strap. It is therefore not necessary to trim the material of either part, hence there is significantly reduced material wastage when forming the termination band. In addition, because the strap and head are both initially in the form of straight-sided elongate strips prior to the folding or joining operations, both parts may be easily edge finished and/or surface finished.

The present disclosure provides a termination band and a method of manufacturing the termination band, which includes a strap and a head. When secured, the head comprises an upper wall, lower wall and opposed side walls formed as a loop with the strap extending therefrom. The termination band is therefore formed as a two-piece component, rather than a single piece as in the prior art. Advantageously this enables the strap and the head to be formed from stainless steel strip having the same width as the head and the strap. It is therefore not necessary to trim the material of either part, hence there is significantly reduced material wastage when forming the termination band. In addition, because the strap and head are both initially in the form of straight-sided elongate strips prior to the folding or joining operations, both parts may be easily edge finished and/or surface finished.

A cable gland for an armored cable comprising at least an exposed portion of the armor, comprising a clamping ring and a compression ring intended to be tightened or rotatably engaged to each other, said cable gland comprises a current conducting circular member, intended to surround the exposed portion of the armor of said cable and being attached at one end to the compression ring and at another end to the clamping ring, so that when the clamping ring and a compression ring are tightened or rotatably engaged to each other, the circular member is collapsed against an exposed portion of the armor of the cable.

A cable gland for an armored cable comprising at least an exposed portion of the armor, comprising a clamping ring and a compression ring intended to be tightened or rotatably engaged to each other, said cable gland comprises a current conducting circular member, intended to surround the exposed portion of the armor of said cable and being attached at one end to the compression ring and at another end to the clamping ring, so that when the clamping ring and a compression ring are tightened or rotatably engaged to each other, the circular member is collapsed against an exposed portion of the armor of the cable.

An electric wire branching structure (1) branches a shielded electric wire (30) with a plurality of electric wires (10) from a main wire (30A) to a plurality of branch wires (30B, 30C). The electric wire branching structure (1) includes an electroconductive shield member (100) configured to cover the electric wires (10) corresponding to the main wire (30A) and the branch wires (30B, 30C). The shield member (100) has a plurality of electric wire insertion openings (111, 112) for the electric wires (10) corresponding to the branch wires (30B, 30C) to be inserted for each of the branch wires (30B, 30C).