A sheeted harness comprising a single piece of sheet member, and a plurality of electric wires arranged on the sheet member. The sheet member is provided on only one side of the plurality of electric wires. The plurality of electric wires is arranged on the sheet member such that a portion of each of the plurality of electric wires is attached, separately from one another without being bundled, to the sheet member.

The wire harness includes a sheathing member that is formed in a sheet shape, at least one electric wire that is arranged on a first principal surface side of the sheathing member, and a sewing thread that sews the electric wire to the sheathing member. A partial region of the sheathing member that is arranged along an extension direction of the electric wire is in a flat state, while another at least partial region of the sheathing member that is arranged along the extension direction of the electric wire is curved in a direction intersecting with the extension direction of the electric wire.

There is provided an electric wire having a conductor total cross-sectional area of 2 mm.sup.2 or less and high reliability. The electric wire includes: a twisted wire conductor (2) including a plurality of strand conductors (21 to 27) twisted together with each other and having a total cross-sectional area of the plurality of strand conductors of 2 mm.sup.2 or less; and a covering member (3) made from a resin material having a flexural modulus of 0.6 GPa or more and covering the twisted wire conductor so that an inner wall thereof is in contact with an outer peripheral surface of the twisted wire conductor, wherein the twisted wire conductor (2) has, on an outer peripheral surface thereof, recesses having a maximum depth of 5% or less of a maximum diameter of the twisted wire conductor in a cross section perpendicular to a length direction of the twisted wire conductor and containing boundaries of the plurality of strand conductors.

A sleeve for insulated electrical cables is made by a generative manufacturing process whereby a stack of annular layers of a shapeless or shape-neutral material at a temperature below a melting point of insulation of the cables is formed on a base to build up thereon a tube. The cable bundle is passed through an opening in the base so that the series of layers built up on the base encloses the cable bundle as the tube. Finally, the tube formed by the stack of layers is cured and solidified layers around the electrical cables and is subsequently fixed to the cable bundle.

A wire harness including: a wire including a core wire and an insulating covering that covers the core wire; an electromagnetic shield that covers and electromagnetically shields at least the core wire; a path regulator that has higher flexural rigidity than the wire and that is formed in an elongated shape; and a cover that covers the wire, the electromagnetic shield, and the path regulator, wherein the wire is fixed along the path regulator.

A wiring harness assembly includes a plurality of electrically conductive wires encased within a substrate formed of a dielectric material, a location feature integrally formed with the substrate, and an opening defined in the substrate located within a predetermined tolerance relative to the location feature. A section of the plurality of electrically conductive wires is exposed within the opening.

A wire harness manufacturing system includes an assembly line that manufactures a wire harness and one or a plurality of supply devices that prepares to supply component magazines in which components of the wire harness are loaded in a holder to the assembly line. Each of the supply devices is capable of preparing a plurality of the component magazines which are different according to types of the components. The component magazines are capable of delivering from the supply devices to at least a part of the series of assembly steps in a state of being independent of both the assembly line and the supply device.

A method for producing a self-closing foil sheathing (14) wound onto at least one line (10) of a cable arrangement (12) includes providing an elastically deformable foil strip (16) which, in a load-free or bare state, is bent in a plane of the foil strip (16). The foil strip (16) is wound onto the line (10) in order to form the foil sheathing (14) which surrounds the line (10). The foil strip (16) during winding onto the line (10) is elastically deformed radially to the outside and in this way is subjected to radial loading in the direction of the line (10).

A wire harness according to an exemplary aspect of the disclosure includes a wire including a conductor and a covering that covers the conductor; and molds that are respectively provided at both ends of the wire, wherein: the covering is formed of a silicone rubber, and the covering covers the molds.

A wiring harness assembly includes a plurality of separated conductors formed of an electrically conductive material, a substrate formed of a dielectric material encasing the plurality of separated conductors, a location feature integrally formed with the substrate and an opening defined in the substrate having a predetermined size and shape. A section of the plurality of separated conductors is exposed within the opening. The opening is precisely located relative to the location feature.