An apparatus for and method of removing a protecting synthetic coating (1) from an elongated element (2) in the form of an optical fiber (3) surrounded by the coating wherein a cut (8) is created into the coating by knife edges (6). The element is displaced with respect to the knife edges in the longitudinal direction of the element for displacing coating material (17) by the knives. At least one drop of liquid (12) with wetting properties is supplied to the cut for being sucked into a space created between the coating and the optical fiber during the displacement for acting as a lubricant for sliding the coating along the fiber to remove the coating from the fiber.

Generating an assessment of the suitability of cables, ducts, tubes, pipes and/or other hollow-type of conduits to extraction of cores, conductors, insulation, etc. included therein while still buried in the ground or otherwise positioned out-of-sight so as to be unavailable for visual and/or physical inspection is contemplated. The assessment may be used to indicate a suitability of a cable buried in the ground of a hybrid fiber coaxial (HFC) cable plant to extraction of the type whereby a core of the cable may be extracted using hydraulics while still buried.

An automated process for producing exposed electrical contact areas on the conductor part of an epoxy coated bus bar. When the epoxy coating is in the glassy state, one can safely and economically, preferably via automated apparatus, put the epoxy into the rubbery state by positioning the bar and applying localized heat at a select area of the coating; monitoring the heating to above the glass transition temperature of the epoxy, bringing cutting tools into contact with the epoxy for cutting and removing the rubbery coating away from the bus bar, and cooling the bus bar to bring adjacent coating back to the glassy state, thereby leaving an exposed electrical contact area of conductor on the bus bar with little or no surface damage.

A manually-operated wire stripper is a device for cutting and removing the electrical insulation from an electrical wire. The device includes a base plate onto which a first mounting plate and a second mounting plate are perpendicularly mounted. A first rod is rotatably mounted through the first mounting plate and the second mounting plate. A cutting assembly is mounted for longitudinal movement to the first rod and may be moved into position such that a blade of the cutting assembly is aligned with a selected slot from a plurality of wire slots traversing through the base plate. An electrical wire may be stripped by inserting the electrical wire through the selected slot, creating a cut in the electrical insulation with the blade, and then manually pulling the electrical wire through the selected slot to remove the electrical insulation along the length of the electrical wire.

A method for manufacturing an electric cable joint, the method comprising: providing a first electric cable and a second electric cable, each cable comprising an electric conductor and a thermoplastic insulation system surrounding the electric conductor, the thermoplastic insulation system comprising an inner thermoplastic semiconducting layer, a thermoplastic insulating layer and an outer thermoplastic semiconducting layer; joining respective terminal portions of the electric conductors of the first electric cable and of a second electric cable placed axially adjacent to the first electric cable, to form an electric conductor joint; surrounding the electric conductor joint with a joint inner layer of a first thermoplastic semiconducting material having a first dynamic storage modulus; surrounding the joint inner layer of a first thermoplastic semiconducting material with a joint insulating layer of a thermoplastic insulating material having a second dynamic storage modulus; and surrounding the joint insulating layer of thermoplastic insulating material with a joint outer layer of a second thermoplastic semiconducting material having a third dynamic storage modulus. The first dynamic storage modulus of the first thermoplastic semiconducting material of the joint inner layer is greater than the second dynamic storage modulus of the thermoplastic insulating material of the joint insulating layer, the dynamic storage moduli being measured at a substantially same measurement temperature of at least 130 C.

In a method of removing a protecting synthetic coating (1) from an elongated element (2) in the form of an optical fibre (3) surrounded by the coating a cut (8) is created into the coating by knife edges (6). The element is displaced with respect to the knife edges in the longitudinal direction of the element for displacing coating material (17) by said knives. At least one drop of liquid (12) with wetting properties is supplied to the cut for being sucked into a space created between the coating and the optical fibre during said displacement for acting as a lubricant for a sliding of the coating to be removed along the fibre.

In a method of removing a protecting synthetic coating (1) from an elongated element (2), the elongated element (2) including an optical fiber (3) surrounded by the coating, a cut (8) is created into the coating by knife edges (6). The element (2) is displaced with respect to the knife edges in a longitudinal direction of the element (2) for displacing coating material (17) by the knives. At least one drop of liquid (12) with wetting properties is supplied to the cut for being sucked into a space created between the coating and the optical fiber during the displacement of the coating for acting as a lubricant for a sliding of the coating to be removed along the fiber.

A manually-operated wire stripper is a device for cutting and removing the electrical insulation from an electrical wire. The device includes a base plate onto which a first mounting plate and a second mounting plate are perpendicularly mounted. A first rod is rotatably mounted through the first mounting plate and the second mounting plate. A cutting assembly is mounted for longitudinal movement to the first rod and may be moved into position such that a blade of the cutting assembly is aligned with a selected slot from a plurality of wire slots traversing through the base plate. An electrical wire may be stripped by inserting the electrical wire through the selected slot, creating a cut in the electrical insulation with the blade, and then manually pulling the electrical wire through the selected slot to remove the electrical insulation along the length of the electrical wire.

A cable having conductors that may be easily exposed in preparation for electrical connection, without requiring the use of tools, is provided. The insulating layer of the cable has at least one relatively weak portion extending along the length of the cable that is configured to allow the insulating layer to split, thereby exposing the wire without the use of tools.

A twisted pair cable processing system includes a frame and a core wire untwisting device installed on the frame for untwisting a pair of exposed core wires of a twisted pair cable. The core wire untwisting device includes an installation plate fixed to the frame, a rotating wheel rotatably mounted on the installation plate and formed with an axial through installation hole, a positioning body and a driver. The positioning body is embedded into the installation hole and is formed with a pair of core wire insertion holes. The driver drives the rotating wheel and the positioning body to rotate together. When the ends of the pair of exposed core wires of the twisted pair cable are inserted into the pair of core wire insertion holes, the driver drives the rotating wheel and the positioning body to rotate to unwind the pair of exposed core wires.