In a method for creating at least one low-voltage path of a cell contacting system, where the cell contacting system contains a main body, a guide head having a discharge opening for discharging an electrical conductor is provided. The guide head is guided by a machine in a predefinable path relative to the main body, and the conductor is discharged from the guide head and laid on the main body to form the low-voltage path.

An apparatus for attaching a label to a moving cable, the apparatus comprising: a roller for pressing a label against the moving cable, wherein the label has a first attaching edge and a second attaching edge and wherein the roller comprises: a first roller for pressing the label against the moving cable, wherein the label is pressed against the moving cable with the first attaching edge and the second attaching edge of the label on opposites sides of the moving cable; a first roll down roller for folding the second edge of the label against the moving cable; and a second roll down roller for folding the first edge of the label against the moving cable.

A wiring harness assembly includes a plurality of electrical conductors having wires enclosed within insulative sheaths that are integrally formed of an electrically insulative material. The assembly also includes a lattice support structure that is attached to the insulative sheaths at multiple locations. The lattice support structure is configured to maintain a desired shape of the assembly. The lattice support structure is formed of filaments that may be formed using an additive manufacturing process The filaments may be arranged such that lattice support structure defines a plurality of hexagonally shaped apertures. A process for manufacturing the wiring harness assembly and an apparatus configured to manufacture the wiring harness assembly is also presented.

A machine includes a first feeding station feeding at least one electrical wire, and a crimping station having at least one crimping tool. The machine further includes an insulation displacement connection (IDC) connection station, and a movable holding and transfer device having at least one actuator. The holding and transfer device receives an electrical wire from the first feeding station and transfers one or both ends of a first wire from the feeding station to one or both of the crimping station and the IDC connection station.

A modular, deployable marine power cable manufacturing system and method for using the same. The system can include an inlet spooling module configured to receive a plurality of baskets and/or reels, each basket and/or reel of the plurality of baskets and/or reels can contain an elongated element. The system can include a gathering module comprising a matrix plate and a mandrel configured to gather the elongated elements into a bundle, a winding module comprising a static plate and a revolving plate configured to twist the bundle in an alternating helical configuration, a banding machine configured wrap a band or tape around the bundle and a caterpillar tractor configured to pull the bundle along the longitudinal axis. The inlet spooling module, the gathering module, the winding machine, the banding machine, and the caterpillar tractor can be configured to be disposed on a plurality of deployable modules.

It is disclosed a process and an apparatus for manufacturing a figure of eight cable. An extrusion head has separate extrusion dies extruding in parallel a first and second outer sheath around a first and second core, respectively, so as to provide two separate cable elements having respective longitudinal axes laying in a first plane. While the outer sheaths are in a softened state, the cable elements are passed in parallel through a twisting die which causes their longitudinal axes to lay in a second plane forming a predetermined twisting angle with respect to the first plane. This twisting causes the outer sheaths to join together, thereby forming a figure of eight cable.

A method for laying multiple conductors in a container may be provided. The method may comprise receiving the multiple conductors at a monitoring station; receiving the multiple conductors at a drive; and receiving the multiple conductors at the container.

A cable end sensing apparatus and a method of sensing a cable end of a cable in a cable preparation device. The cable end sensing apparatus includes cable clamps for clamping and moving the cable and a movable sensing device. The movable sensing device has a first position in which the movable sensing device is positioned in line with an axis of insertion of the cable to engage the end of the cable and to prevent the cable from moving beyond the movable sensing device. The movable sensing device has a second position in which the movable sensing device is moved away from the axis of insertion of the cable when the cable end is properly positioned to allow the cable to move beyond the sensing device.

Provided are a micro-nano wire manufacturing device and a micro-nano structure. The micro-nano wire manufacturing device includes a liquid-phase nanomaterial storage device and a micro-nano wire applying mechanism. The liquid-phase nanomaterial storage device is provided with a liquid outlet. The micro-nano wire applying mechanism is provided in one-to-one correspondence with the liquid outlet. The micro-nano wire applying mechanism includes at least two flexible wires. The roots of the flexible wires are secured to the liquid-phase nanomaterial storage device. One ends of the two flexible wires hang down to a substrate and abut against each other. The range of the angle between the projections of the two flexible wires on the substrate is 1°to 5°.

A cable processing machine has a processing region for processing cables, an operating region for operation of the machine by an operator, a conveying device that conveys batches of cables processed in the processing region from the processing region to the operating region, a cable storage device having a receiving portion accessible from the processing region for receiving individual cables processed in the processing region and a removal portion accessible from the operating region for safe removal of the individual cables by the operator, as well as a feed device that feeds the cables processed in the processing region either to the conveying device or to the receiving portion.