A process of manufacturing an electrical wiring assembly includes the steps of cutting an elongate strip from a sheet of metal and cutting a mesial slit in an end of the uninsulated segment, thereby forming a pair of distal projections flanking the mesial slit. The mesial slit and the pair of distal projections form a forked split blade terminal.

A cable gland assembly includes a gland nut defining a longitudinal axis. The gland nut includes an interior wall defining a gland nut opening and the interior wall includes a stop. A bushing is disposed within the gland nut opening proximate the stop. The bushing defines a bushing opening configured to receive a cable therein. A sleeve is moveably disposed within the gland nut opening adjacent the bushing. The cable gland assembly also includes a body defining a body opening configured to receive at least a portion of the cable therein. The body is configured to couple to the gland nut, and upon tightening of the gland nut to the body, the gland nut moves along the longitudinal axis compressing the bushing between the gland nut and the sleeve and around the cable. When the sleeve engages with the stop, further compression of the bushing is restricted.

A cable gland assembly includes a gland nut defining a longitudinal axis. The gland nut includes an interior wall defining a gland nut opening and the interior wall includes a stop. A bushing is disposed within the gland nut opening proximate the stop. The bushing defines a bushing opening configured to receive a cable therein. A sleeve is moveably disposed within the gland nut opening adjacent the bushing. The cable gland assembly also includes a body defining a body opening configured to receive at least a portion of the cable therein. The body is configured to couple to the gland nut, and upon tightening of the gland nut to the body, the gland nut moves along the longitudinal axis compressing the bushing between the gland nut and the sleeve and around the cable. When the sleeve engages with the stop, further compression of the bushing is restricted.

A pulling terminal structure includes: a braided tube that includes a pulling part; a housing tube disposed inside the braided tube and that houses an optical connector; and a reinforcement member disposed inside the braided tube and that reinforces an end part of the housing tube.

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 electrical conductor assembly includes a line section having a plurality of conductor wires formed of a first electrically conductive material, a contact section in which the conductor wires are compacted to form a contact unit, and a layer formed of a second electrically conductive material. The layer is disposed on a contact surface of the contact unit.

An electrical conductor assembly includes a line section having a plurality of conductor wires formed of a first electrically conductive material, a contact section in which the conductor wires are compacted to form a contact unit, and a layer formed of a second electrically conductive material. The layer is disposed on a contact surface of the contact unit.

A terminal connection unit has a novel structure that enables advantageously absorbing tolerance between positions of a terminal fitting and a connection portion while also ensuring a good state of connection between the terminal fitting and the connection portion. A terminal connection unit includes: a current-carrying member that has a connection portion for connection to a terminal fitting provided at the terminal end of an electric wire; and a support portion that fixedly supports the current-carrying member. The current-carrying member includes a fixing portion that is fixed to the support portion, and an extendable portion that couples the connection portion and the fixing portion to each other and can extend and contract in the first direction. The support portion includes an attachment portion that is attached to the connection portion and is displaceable in a first direction.

A corrosion resistant termination connector for connecting to a steel wire rope and a modular fitting for use on a magnetic influence minesweeping cable is provided. The connector body is made of a high strength composite material, and has a common channel. The body has three sections: A ribbed annular stem, an abutment band with uniform edges for forming sealing occlusions, and an externally threaded spelter socket with a conical channel. Strands of the wire rope are splayed and adhesively joined with a mixture of thermosetting resins forming a conical wedge that secures the rope within the conical channel. The modular fitting is screwed on the elongate socket section, and includes a pin with a thimble. A molded insular cover seals the steel wire rope and the ribbed stem.