A smart sheath for the protection of an electric cable comprises an inner insulating tubular layer (3) adapted to contain the conductive elements (4) of the electric cable (1), an outer tubular protective layer (5) placed on the inner tubular layer (3), coaxially thereto, an electric control circuit (6) arranged inside the outer tubular layer (5) and adapted to intercept the induced electric currents generated by the passage of the electric current in the conductive elements (4). Furthermore, the electric control circuit (6) is operatively connected to electric current sensor means (7) and to microcontrollers (13) adapted to discriminate a value of the induced electric current higher than a predetermined maximum value to signal an overload inside the electric cable (1) or absence of the induced electric current for report a possible short-circuit.

A structural component, or parts thereof, for a machine system or vehicle, such as an aircraft, is provided. In some examples, the structural component includes at least one embedded passageway or line. In other examples, the passageway or line is formed integrally on the exterior surface of the structural component. In some of these examples, the structural component can benefit from additive manufacturing techniques or methodologies.

A wire harness includes electrical wires and an outer covering member. The outer covering member includes tube portions different in cross-sectional shape and size and a guiding shape portion between adjacent tube portions. The guiding shape portion guides the electrical wires when inserted. A cap is provided to each one end of the electrical wires, and the electrical wires are passed through the guiding shape portion with the caps facing frontward. A wire harness and a method for inserting electric conductive paths through the wire harness can enhance workability related to the electrical conductive paths and an outer covering member while suiting the wire harness to the shapes and the usage environments.

A connector includes a first connector body and a second connector body configured to be coupled to one another. The first connector body has a through hole and a cavity. The through hole and the cavity are configured to receive a shield of a hardline coaxial cable. A first washer is disposed in the first connector body and is configured to permit the shield to be pushed in a first direction through the through hole and into the cavity while resisting movement of the shield in a second direction opposite to the first direction. The second connector body has a through hole and a cavity. The through hole and the cavity of the second connector body are configured to receive a tubular member. A second washer is disposed in the second connector body and is configured to permit the tubular member to be pushed in the second direction through the through hole of the second connector body and into the cavity of the second connector body while resisting movement of the tubular member in the first direction. The second connector body is rotatable relative to the second washer and the tubular member until the second connector body and the first connector body are coupled together to a predetermined degree of tightness.

A wire harness includes an electrical pathway and a pipe like exterior member that covers the electrical pathway. The exterior member includes a low rigidity portion which is flexible and a high rigidity portion which is unflexible and has a rigidity higher than the low rigidity portion, and the low rigidity portion and the high rigidity portion are successively arranged in an extending direction of the electrical pathway.

A curvature-restraining member and a power feeding device include a wire harness having an electric wire and a corrugated tube (flexible tube). The curvature-restraining member restrains the wire harness from curving in a predetermined curving direction D3 with a radius of curvature smaller than a reference radius. The curvature restraining member includes a body portion placed near at least one of ends of the corrugated tube and extending in a length direction of the electric wire, and a curved portion extending from one end of the corrugated tube opposite from the former end, and curving in the curving direction D3 with a radius of curvature not less than the reference radius with such a length that it falls within the straightly extending corrugated tube.

A hybrid management cable includes a cable connector having a first cable sub-connector and a second cable sub-connector, The cable connector connects to a hybrid management switch connector on a hybrid management switch and, in response, engages the first cable sub-connector with a first hybrid management switch sub-connector on the hybrid management switch connector, and engages the second cable sub-connector with a second hybrid management switch sub-connector on the hybrid management switch connector. A cable conduit extends from the cable connector. A first management data transmission medium is connected to the first cable sub-connector, located in the cable conduit, and extends along the length of the cable conduit. A second management data transmission medium is connected to the second cable sub-connector, located in the cable conduit and isolated from the first management data transmission medium, and extends along the length of the cable conduit.

An exterior member attaching method includes four steps. In an exterior member loading step, an exterior member is loaded onto a base plate in a state where the electric wire regulation pins provided on the base plate pass through exterior member holes. In an electric wire loading step, the electric wire is placed on the exterior member along the electric wire regulation pins. In an exterior member temporary bonding step, the electric wire is nipped by temporarily bonding a second half of the exterior member on the movable temporary bonding portion to a first half of the exterior member on the base plate while pushing the electric wire regulation pins to the base plate side. In an exterior member actual bonding step, a bonding end edge is bonded by moving a bonding roller.

A wire harness including: an electrical wire; and a fixing member that fixes the electrical wire to an attachment target, wherein: the fixing member has: a bolt fixing portion to be fixed to a bolt of the attachment target; and a holder that holds the electrical wire, the bolt fixing portion includes: a side surface that opposes the attachment target; a bolt insertion opening provided in the side surface and into which the bolt is to be inserted; an engagement that engages, in an axial direction, the bolt inserted into the bolt fixing portion through the bolt insertion opening; and a biasing part that is provided on the side surface and comes into contact with the attachment target.

A wire harness including a wire harness main body having an electric wire and an exterior tube that covers an outer circumferential surface of the electric wire; a path restrictor that is attached to an outer circumferential surface of the exterior tube and restricts a path of the wire harness main body and an attachment attached to an outer circumferential surface of a portion in a lengthwise direction of the path restrictor.