Technology capable of reducing the number of tubular protective members in a wiring member is provided. The wiring member includes: multiple electric wires that branch into multiple branch lines from a main line at a branch position; a connection component provided at an end portion of a target branch line among the branch lines; and a resin molded body that includes a main body portion and an extending portion. The main body portion covers all of the electric wires at the branch position, and the extending portion extends from the main body portion and covers a portion of the target branch line that is between the main body portion and the connection component.

An arrangement structure of a wiring member includes: a wiring member including a plurality of wire-like transmission members parallelly arranged and a base keeping the plurality of wire-like transmission members in a state of being arranged side by side; and an arrangement target of the wiring member, wherein a slit extending along a longitudinal direction of the plurality of wire-like transmission members is formed in a portion of the base between the plurality of wire-like transmission members.

A wiring member includes: a main line portion in which a plurality of electric wires are gathered; a plurality of branch line portions formed by branching the plurality of electric wires from an end portion of the main line portion; a water sealing portion that closes a gap between the plurality of branch line portions at a branch portion where the plurality of branch line portions branch from the end portion of the main line portion; and a resin portion molded to cover the water sealing portion in a state in which the resin portion is in close contact with an outer peripheral portion of the main line portion adjacent to the branch portion and outer peripheral portions of the plurality of branch line portions adjacent to the branch portion.

A routing structure of a shielded electric wire, the shielded electric wire including an electric wire and a resin tube is routed in a state of being bent, the resin tube including a shield layer, an inner-side resin and an outer-side resin, the shield layer being interposed between the inner-side resin and the outer-side resin, is provided. A tensile strength of the inner-side resin and the outer-side resin is greater than a bending stress to be generated when the shielded electric wire is bent with a minimum bend radius in the routing structure. The shield layer has a shield resistance equal to or smaller than 103.8 mΩ/m and a shield density equal to or greater than 50%, the shield density being a ratio of an area of a surface of the electric wire covered by the shield layer to an area of the surface of the electric wire.

A corrugated tube mounting structure includes: a corrugated tube into which an electric wire is inserted, formed with a slit into which the electric wire can be inserted, the slit being formed along a length direction of the corrugated tube; and a protector includes a main body inside which the electric wire is arranged and an outlet portion from which the electric wire is drawn out. The outlet portion is provided with a cover configured to close an opening into which the corrugated tube can be inserted. The cover is provided with a pressing portion configured to press the electric wire, which is exposed from an end of the corrugated tube on a main body side, toward the inside of the corrugated tube.

A cable system for power distribution including a first connection and a second connection each connected respectively to a first cable and a second cable, the first and second connections to be connected to a battery; said second cable being split into a set of two distinct wires connected to a circuit protector, wherein each of the first cable and the second cable are connected respectively to a third connection and a fourth connection each configured to connect to a first load, wherein each of the first cable and the second cable are additionally connected to a fifth connection and a sixth connection each configured to connect to a second load; and wherein the first cable and the second cable are configured to bypass another circuit protector for a difference power distribution connect to the battery.

The present disclosure relates to an assembly having a cable support and a cable inserted in the support, the latter may include: at least one base, made of a rigid material, having at least one receptacle provided with a longitudinal axis and, of which the inner dimension D.sub.int is given, and at least one strap, made of a material more flexible than that of the base, having at least two lips on the one hand arranged opposite one another to define a slot for the passage of a cable between the lips and on the other hand, shaped to define an orifice, wherein the cable is inserted, this orifice, provided with a longitudinal axis, communicating with the slot along this longitudinal axis of the orifice, the lips having, together, an outer dimension D′.sub.ext equal or greater than the inner dimension of the receptacle.

A plastic clip for attaching a longitudinal element, particularly a fluid line, to a perforated sheet part, particularly a body part of a vehicle. The plastic clip comprises a base portion and a lid portion connectable or hingedly connected to the base portion so as to establish an open configuration or a closed configuration. The base portion has a semi-circular base receptacle for the longitudinal element. The lid portion has a semi-circular lid receptacle for the longitudinal element. The base receptacle and the lid receptacle, in the closed configuration, together form a circular holding portion for the longitudinal element. At least one of the base receptacle and the lid receptacle is provided with a jacket portion which is made from a material that is softer than the material of the respective receptacle. The base portion comprises a support portion from which projects a plastic rivet protrusion adapted to be inserted into a hole of the perforated sheet part.

A fastening arrangement of a supply rail in a connection region in which two bodywork components are connected to one another is provided, in which arrangement the supply rail rests on a first bodywork component and is held on the first bodywork component via a holding element. By way of the holding element, the first bodywork component is held on the second bodywork component.

One aspect of the present disclosure provides a connector holder capable of suppressing interference between a wire harness of an instrument panel and a vehicle body. A connector holder (11) according to one aspect of the present disclosure comprises an engagement part (23), having a projecting shape, that can engage with a cover attachment hole (6) formed in an instrument panel (1). A wire harness (10) comprises a connector holding part (21) for holding a connector (13) of the wire harness (10), and a bolt covering part (22) extending from the connector holding part (21). The bolt covering part (22) is configured to cover a bolt (B) fixed to a vehicle body (2) in a state where the connector holding part (21) is fixed to the vehicle body (2). The engagement part (23) is provided in the bolt covering part (22).