A cable processing machine system includes a cable processing machine for processing a cable, a cable tray for receiving cables processed by the cable processing machine, and a removal trough, the cable tray being pivotable to transfer cables from the cable tray into the removal trough when the cable tray pivots. The removal trough includes an exit conveyor belt for conveying the cables along a transport direction away from the cable processing machine to an end of the removal trough.

A removal trough for a wire processing system receives wires processed by a wire processing machine of the wire processing system, wherein side walls of the removal trough each have one or more recesses and/or indentations formed therein for mechanical gripping of the wires in the removal trough by a gripping arm.

An intermediary system and processes for controlling cable processing on plural cable processing machines. The intermediary system receives operators' location data, as determined by location sensors; receives from each cable processing machine technical status data based on a physical parameter indicating a capability of the respective machine in executing a cable processing step; forwards an operator request to a wearable audio output device of an operator; and, receives from a particular machine's technical status update when capability for executing a particular cable processing step is restored. The intermediary system has a computing component including: technical status evaluator identifying, based on particular technical status data a need for restoring capability of the respective cable processing machine in executing a cable processing step; a request composition component generating the operator request with voice instructions for the operator, the operator request being based on the identified need, technical status data of other machines, and location data of the operators.

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 cable processing device includes a cable conveying device running along a machine longitudinal axis transporting a cable, and a cable changer selectively supplying cables for processing. The cable changer has two guide units for guiding and holding one cable each and being movable between inoperative and active positions. In the inoperative position, the guide unit is positioned outside the cable conveying device spaced from the machine axis. In the active position, the guide unit is positioned coaxially with the machine axis producing an operative connection to the cable conveying device. The guide units are movable independently of each other. When one of the guide units is moved from the inoperative position into the active position, the other guide unit remains positionally fixed in the inoperative position. When the guide units are both in their inoperative positions, they are positioned lying next to each other on a common horizontal plane.

A braid processing device trims an end portion of an exposed braid of a braid-shielded cable including a cable center portion (e.g., two insulated wires), a braid that covers an outer circumferential surface of the cable center portion, and a sheath that covers an outer circumferential surface of the braid, the exposed braid being exposed from the sheath. The braid processing device includes a braid raising mechanism that raises the exposed braid from the cable center portion toward an outer circumferential side, and a shearing mechanism. The shearing mechanism includes an outer blade that has an annular outer cutting edge, an inner blade that has an annular inner cutting edge, the annular outer cutting edge and the annular inner cutting edge being capable of shearing the exposed braid therebetween, and a blade driving portion that relatively moves the inner blade toward the annular outer cutting edge.

A cable processing machine includes a cable feeding device for moving a cable in a feed direction. The cable feeding device has a first guide element and a second guide element, between which elements the cable is guided at least in an operating mode of the cable processing machine. The spacing between the two guide elements is selectively variable. A method for laying a cable in the cable processing machine includes moving one or both of the guide elements relative to one another when the cable processing machine is shifted between the operating mode and a cable laying mode.

An electric wire twisting device is provided, which is capable of producing a preferable twisted electric wire from a plurality of electric wires of which both ends are cut. An electric wire twisting device 1 includes a first gripping device 11 including a first clamp 2a that grips a first end of a first electric wire CT, a second clamp 2b that grips a first end of a second electric wire C2, and a first holder 15A that holds the first clamp 2a and the second clamp 2b. The electric wire twisting device 1 includes a second gripping device 12 that grips a second end of the first electric wire CT and a second end of the second electric wire CT, a first revolving actuator 3b that causes the first holder 15A to rotate around a center line of revolution CL, and a first rotating actuator 3a that causes the first clamp 2a and the second clamp 2b to rotate around a center line of rotation that is parallel to the center line of revolution CL or is inclined with respect to the center line of revolution CL.

A method for processing a cable on a cable processing machine which includes a cable processing station with a cable processing tool. An interface receives at least one physical parameter value, from a sensor, indicating a capability of the cable processing machine for executing a processing step. A capability determination component determines, based on the physical parameter, that the capability is insufficient. A voice instruction generator component generates voice instructions for an operator, relating to an action to be performed for restoring the capability of the cable processing machine to enable execution of the processing step. Voice instructions are output generated and sent to wearable audio device associated with operator. A confirm component receives confirmation that action for restoring the capability of the cable processing machine is complete, and the capability determination component validates restoration of the capability. Once capability is restored, the cable processing tool executes the processing step.

A machining apparatus includes a movement direction converting mechanism that converts lowering movement of a first punch into raising movement of a second punch and converts lowering movement of the second punch into raising movement of the first punch. The first punch and the second punch are raised and lowered in an alternating manner by this movement direction converting mechanism. Accordingly, machining by the first punch and machining by the second punch are performed individually.