A system for servicing cable includes a field-end assembly and a live-end assembly, each mounted on a support structure having at least one drive mechanism operable to cause relative linear movement between the field-end assembly and the live-end assembly. A drilling-and-shorting assembly can create a short circuit in a field-end of the cable, and a continuity tester can test the integrity of the short-circuit. The field end of the cable can then be ejected from the system, and an end-cap-cradle assembly can position an end cap on a live end of an electrical cable and test its installation.

A shield trim is performed by tearing bunched shield strands circumferentially along a circular edge. The apparatus includes a pair of aligned metal plates that have been drilled through multiple times such that holes of varying diameters pass may be passed through both plates. A cable gripper on the entry side of the device clamps the cable in place. A shield gripper on the rear side of the device closes over the exposed shielding of the cable, and the two plates are pushed together. The shield gripper travels with the rear plate, pushing the shield over the wires and causing the shield to bunch between the two plates. With the two plates pushed together, both grippers open and the cable is pulled free from the device. This pull forces a stress concentration on the shield strands as they are pulled and subsequently torn across the sharp edge of the hole, producing a uniformly trimmed shield.

A peeling apparatus 1 includes a first peeling die and a second peeling die respectively including a pair of cutting blades 251 that peels the insulating film by being moved in a direction perpendicular to an axial direction of the conductive wire material 2 to cut the insulating film, and a support die 253 that supports a side surface of the conductive wire material 2 from a downstream side in a moving direction of the cutting blades 251 at the time of cutting by the cutting blades 251, the support die 253 of the first peeling die including a convex portion 2533 protruding toward the conductive wire material 2.

A peeling device (12) includes a first peeling unit (21) and a second peeling unit (22). When an upper peeling die (33) and a lower peeling die (34) of the first peeling unit (21) are moved forward, an insulating coating (8) is peeled off from upper and lower surface of a coil conductor wire (2), and a conductive portion (7) is cut from the upper surface and the lower surface of the coil conductor wire (2). The conductive portion (7) is formed to have exposed portions (7a) and recessed portions (7b) cut in a trapezoidal shape. A front peeling die (42) and a rear peeling die (43) of the second peeling unit (22) are moved downward while the recessed portion (7b) is placed on and pressed against a second receiving section (41b) of a cradle (41), which peels off the insulating coating (8) and cuts the conductive portion (7).

A method of producing shaped parts includes drawing insulated flat material with a draw-in device and processing in a wire processing machine to form the shaped part material; separating the shaped part from supplied insulated flat material by cutting, wherein before the shaped part is separated, part of the insulation layer is removed in a portion of the flat material; and synchronously with feeding stripping tools on each side of the flat material, feeding at least one supporting element toward the flat material.

A cut-away cutting tool has two slit forming blade portions and a peeling blade portion interposed between the two slit forming blade portions. The two slit forming blade portions respectively form slits on an insulating coating of a flat conductor wire. On the other hand, the peeling blade portion peels off a portion of the insulating coating between the slits formed by the two slit forming blade portions.

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 cable clamping device for widening a braided shield of a cable includes at least three clamping bodies that are arranged to form an equilateral polygonal passage for clamping the cable therein. The clamping bodies are slidable against each other to change the opening size of the passage.

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).

Equipment for stripping package includes a supporting frame, a driving air motor, a pressing assembly and a feeding carrier plate, wherein the pressing assembly is mounted in an interior of the supporting frame, an output end of the driving air motor is in transmission connection with the pressing assembly, and a feeding end of the supporting frame is connected with the feeding carrier plate. The pressing assembly includes a first transmission shaft and a second transmission shaft, the first transmission shaft is sleeved with a lower peeling roller, pressing tooth on the lower peeling roller and pressing tooth on the second transmission shaft are arranged in a staggered mode, and tearing operation of external packaging layers of cables is achieved by up-and-down pressing.