A cable management device includes a first arm and a first connection element. The first arm has a first end portion and a second end portion. The first connection element is pivotally connected to the second end portion of the first arm. One of the first arm and the first connection element is arranged with an engaging feature, and the other one of the first arm and the first connection element is arranged with a corresponding feature. When the first arm pivots relative to the first connection element from a first position to a second position by a predetermined angle, the first arm is capable of being kept at the second position relative to the first connection element by cooperation between the engaging feature and the corresponding feature.

A cable management device includes a first arm and a first connection element. The first arm has a first end portion and a second end portion. The first connection element is pivotally connected to the second end portion of the first arm. One of the first arm and the first connection element is arranged with an engaging feature, and the other one of the first arm and the first connection element is arranged with a corresponding feature. When the first arm pivots relative to the first connection element from a first position to a second position by a predetermined angle, the first arm is capable of being kept at the second position relative to the first connection element by cooperation between the engaging feature and the corresponding feature.

One end side of a corrugated tube is urged forward or backward in a closing direction, among a circumference direction around a vertical direction passing through the one end of the corrugated tube, in which a slide structural body is closed with respect to a vehicle body so that the corrugated tube is bendable in a U-shape.

One end side of a corrugated tube is urged forward or backward in a closing direction, among a circumference direction around a vertical direction passing through the one end of the corrugated tube, in which a slide structural body is closed with respect to a vehicle body so that the corrugated tube is bendable in a U-shape.

An energy supply system includes a cable store for winding and unwinding an energy cable about a winding center of the cable store. A carrier is provided for the at least one energy cable, and the cable store has an opening for the inlet and outlet of the carrier and the energy cable. The carrier can be guided through the opening in order to guide the carrier and the energy cable in sections in the cable store to the winding center of the cable store over a first guide path through a first guide arc, over a second guide path, which adjoins the first guide arc, through a second guide arc, and over a third guide path, which adjoins the second guide arc and lies further inwards relative to the winding center than the first guide path, and optionally over additional guide paths and guide arcs, using guiding means.

A rotary connector device includes a fixed body, a rotation body, a connector, and an electrode. The connector is coupled to the fixed body and includes a second space and a cable cutting member in the second space which is in communication with the first space. The electrode is provided in the second space of the connector. An exposed conductor portion provided at one end of a cable is connected to the electrode. The cable extends from the second space to the first space. The other end of the cable is connected to the rotation body. The cable cutting member is configured to cut the cable before the exposed conductor portion connected to the electrode of the connector is disconnected when the cable is pulled due to rotation of the rotation body.

A rotary connector device includes a fixed body, a rotation body, a connector, and an electrode. The connector is coupled to the fixed body and includes a second space and a cable cutting member in the second space which is in communication with the first space. The electrode is provided in the second space of the connector. An exposed conductor portion provided at one end of a cable is connected to the electrode. The cable extends from the second space to the first space. The other end of the cable is connected to the rotation body. The cable cutting member is configured to cut the cable before the exposed conductor portion connected to the electrode of the connector is disconnected when the cable is pulled due to rotation of the rotation body.

A cable carrier chain having link sections that include metal and plastic portions to allow the chain to operate at high velocity yet also be suitable for high acceleration and deceleration and/or heavy load applications. The metal portions are “free floating” when the chain rotates around a pivot point to allow the plastic portions to flex, but become “locked out” when the chain is no longer rotating to provide sufficient strength to support the load of the chain.

An apparatus for limiting a movement of a wiring harness includes a binding unit configured to bind the wiring harness electrically connected to a moving component configured to be movable relative to a vehicle body, the binding unit configured to be movable according to a movement of the moving component, and a guide track configured to guide a movement of the binding unit, wherein the guide track defines a movement path of the binding unit.

An apparatus for limiting a movement of a wiring harness includes a binding unit configured to bind the wiring harness electrically connected to a moving component configured to be movable relative to a vehicle body, the binding unit configured to be movable according to a movement of the moving component, and a guide track configured to guide a movement of the binding unit, wherein the guide track defines a movement path of the binding unit.