A device for removing a sheath of electrical conductors of a preferably multicore cable (K), preferably comprises at least one holding arrangement/clamping device for clamping the cable (K), and a blade arrangement (1), which can preferably be rotated about the longitudinal cable axis, for the sheath. A pull-off device (A) for the at least partially cut sheath is integrated into the device. This pull-off device (A) comprises pull-off mechanism (5), which is designed for connection to the sheath and for exertion of a force on the sheath parallel to the cable axis. The invention further relates to a method of removing an inner sheath of electrical conductors of a multicore cable (K).

A stripping tool for cutting the armor sheathing of a cable. The stripping tool includes a cable receiving handle defining a cable receiving channel and a saw handle movably mounted to the cable receiving handle. A saw assembly, including at least one saw blade, is supported by the saw handle and moveable relative to the cable receiving handle. The saw assembly configured to cut two successive wraps of the armor sheathing of the cable.

A method of removing an inner sheath of electrical conductors of a multicore cable (K) having a film located between a shielding or an insulation and the inner conductors. The method comprising the steps of clamping of the cable (K), cutting of the inner sheath, establishing a connection with a pull-off means (5), and subsequently pulling off a cut or a cut-off sheath in a longitudinal direction of the cable (K).

In an electrical cable of the type having an outer sheath enclosing a conductor assembly comprising a plurality of insulated conductors disposed within a binder, the binder having a crush resistance for protecting the insulated conductors, an improvement in which a strength enhancer is mixed within the conductor insulation such that the binder can be removed without decreasing a crush resistance of the electrical cable.

A removing apparatus (2) includes a first removing section (11) and a second removing section (12). The first removing section (11) includes a rotating disk (15) and a driven roller (16). The rotating disk (15) has a pair of left and right first to fourth left and right removing blades (21) to (24) attached thereto. When the rotating disk (15) rotates in a counterclockwise direction, a coil conductive wire (3) sandwiched between the rotating disk (15) and the driven roller (16) is transferred in a transfer direction. When the rotating disk (15) rotates in a counterclockwise direction, the left and right side surface portions of the insulating coating (4) are removed by a blade portion (21b) of a pair of left and right first left and right removing blades (21).

A cable armour stripping unit is provided, including a frame configured to accommodate a transmission cable having a plurality of armoured outer layers arranged about an inner sheath enclosing a plurality of conductors and to hold a cutter arrangement including at least one cutting tool arranged to cut into an armoured outer layer of the cable; a vertical feed arrangement configured to effect a translation of the frame relative to the cable, and a rotation arrangement configured to effect a rotation of the frame relative to the cable. A method of stripping armour from a transmission cable is also provided.

In an electrical cable of the type having an outer sheath enclosing a conductor assembly comprising a plurality of insulated conductors disposed within a binder, the binder having a crush resistance for protecting the insulated conductors, an improvement in which a strength enhancer is applied such that the binder can be removed without decreasing a crush resistance of the electrical cable.

A method of removing a metallic cable core that extends through an outer cable sheath of a length of data transmission cable is disclosed. The core is surrounded by a filler material contained within the outer cable sheath as an integral part of the cable. The method comprises the steps of resistively heating the core by supplying electric current to it to reduce the viscosity of the surrounding polymer material; and pulling the core out of one end of the outer cable sheath while the viscosity of the filler material is in a reduced state.

A cable processing apparatus including a first housing member having a first interface surface, a second housing member having a second interface surface, the second interface surface opposes the first interface surface. At least one abrasive member unit coupled to at least one of the first and second housing members so as to be disposed between the first and second interface surfaces. A controller coupled to the first and second housing members and the at least one abrasive member unit for moving the first and second housing members to clamp a cable extending through the first and second housing members, actuating the at least one abrasive member unit, and moving the second housing member relative to the first housing member to radially expand shielding of the cable where the radially expanded cable shielding is ground off of the cable by the at least one abrasive member unit.

A cable processing apparatus including a frame; a cable guide coupled to the frame; a first cable clamp adjacent the cable guide; a second cable clamp adjacent the cable guide where the first cable clamp is disposed between the cable guide and the second cable clamp; and a controller configured to move the second cable clamp to a clamped position such that a cable extending through the cable guide is clamped by the second cable clamp, move the second cable clamp, relative to the cable guide, in a direction extending along the cable such that a first portion of the insulation is removed from the cable at the first score to expose shielding of the cable, and move the second cable clamp, relative to the first cable clamp, in the direction extending along the cable to cut the shielding to expose one or more conductor of the cable.