A system for the automated production of a cable set, which has a branched structure of a plurality of individual line elements. In a modular set-up in the first part, a plurality of first processing stations, and in the second part, a plurality of second processing stations are arranged. In the first part, there is an automatic preparation of the individual line elements, which are then collected in a buffer station at the end of the first part. In the second part, the prepared individual line elements are assembled into the cable set. The line elements are plugged into connector casings in a connector station and transferred to second transporters, and via which the branched structure of the cable set is then formed by moving along second tracks. In this spread-out branched structure, a fixing of the line elements to one another takes place in a fixing station.

A wire harness producing device configured to produce a wire harness by displaying a wire laying-out drawing in a full size in a length direction on a plurality of display devices, and laying-out electric wires along the wire laying-out drawing. The device includes a displaying control section configured to look up operation recipe information configured as a database capable of identifying wire laying-out order numbers of the electric wires, and in turn display wire laying-out position indicators configured to indicate positions of the electric wires to be laid out, on the plurality of display devices, according to a wire laying-out order of the electric wires. The operation recipe information includes coordinate information for indicating displaying positions for the wire laying-out position indicators. The displaying control section is configured to display the wire laying-out position indicators, in the displaying positions indicated by the coordinate information on the plurality of display devices.

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.

Systems and methods for designing and assembling form boards with attached wire routing devices for use in wire bundle assembly. The assembly method comprises: (a) establishing a coordinate system of a form board having a multiplicity of holes; (b) using a computer system to determine locations of form board devices of different types with reference to the coordinate system of the form board based on engineering data specifying a wire bundle configuration; and (c) fastening the form board devices of different types to respective holes of the form board having centers closest to respective locations determined in step (b). The form board devices may be inserted robotically or manually.

A routing element for a cable harness manufacturing system includes an assembly board having an attachment surface configured for receiving tooling components to support and locate a cable harness during manufacture. The routing element includes: an upper fixture support having an aperture for receiving a tooling component to support the cable harness during manufacture; and a lower suction holder including two suction cups for attaching the routing element to the assembly board. The lower suction holder and the upper fixture support are located axially about a central vertical axis of the routing element. The lower suction holder extends outwardly relative to the upper fixture support, such that the area covered by the lower suction holder is greater than that of the upper fixture support. Also provided is a cable harness manufacturing system and a kit including routing elements, spacer elements and support plates for a cable harness assembly board.

Systems and methods for designing and assembling form boards with attached wire routing devices for use in wire bundle assembly. The assembly method comprises: (a) establishing a coordinate system of a form board having a multiplicity of holes; (b) using a computer system to determine locations of form board devices of different types with reference to the coordinate system of the form board based on engineering data specifying a wire bundle configuration; and (c) fastening the form board devices of different types to respective holes of the form board having centers closest to respective locations determined in step (b). The form board devices may be inserted robotically or manually.

A system is provided for wire processing. The wire processing system may include a wire transport, a processing station that may provide wire to the wire transport, a processing station that may move an electrical component threaded onto the wire, and a processing station that may move the electrical component to a position on the wire for further processing.

A cable changer includes a cable guide for retaining a plurality of cables at different heights, and a cable feed apparatus for feeding one of the cables to a cable processing machine, the height of the cable guide being adjustable relative to the cable feed apparatus, such that the cable feed apparatus can feed different cables of the cable guide to the cable processing machine depending on the height of the cable guide relative to the cable feed apparatus. The cable guide has height alignment elements and the cable feed apparatus has height determination elements that are complementary to the height alignment elements, the height alignment elements and the height determination elements locking the cable guide at one of a plurality of specified heights relative to the cable feed apparatus when the height determination elements are connected to some of the height alignment elements.

A wire harness includes: a first wiring member including a plurality of first linear transmission members and at least one first intermediate connector, some of the plurality of first linear transmission members being connected to the first intermediate connector; and a second wiring member including at least one second linear transmission member and a second intermediate connector to which the at least one second linear transmission member is connected. The first intermediate connector and the second intermediate connector are connected to each other, thus at least one part member of plurality of first linear transmission members which are connected to the first intermediate connector are connected to at least one second linear transmission member.

A conductive portion of a circuit body is formed by performing spraying on a surface of a resin casing. For spraying of the conductive portion, a cold spray method in which metal powder and inert gas are sprayed to an object is used. A circuit component is mounted on the conductive portion. Each terminal portion of the conductive portion is provided with a connector for connection with an external circuit body. An insulating resin is laminated on a surface of the conductive portion. The circuit body is directly formed on the surface of the resin casing by a series of processes described above.