A cable routing device for connecting a line strand to a carrier element which can be moved with respect to the vehicle, wherein the cable routing device has a carrier element, fastened pivotably to the vehicle, and a cable store, in which at least part of the line strand is accommodated. Based on the problem of providing a cable routing device of compact design which is suitable for ensuring low sag of a line strand with a large diameter, the problem is solved by virtue of the fact that a spring element is arranged between the carrier element and the cable store, by which spring element, the line strand is supported loosely.

A sliding window or sliding door arrangement having an external frame and a sliding element which is displaceably mounted in the external frame, a cable deflection system for tensioning and deflecting a cable, which includes a first cable deflection unit with a first cable deflection device, a second cable deflection unit with a second cable deflection device, and a guide channel which extends in the direction of gravitational force. The second cable deflection unit is held in the guide channel against gravitational force by a cable which is inserted into the cable deflection device, such that when the sliding element is displaced, the second cable deflection unit is displaced in the direction of gravitational force or in the opposing direction in the guide channel.

The charger comprises a cable cover disposed on a main body to which a charging cable is connected and having an inner space therein; a cable guide movably accommodated in the inner space and including a bracket and at least one pulley rotatably installed on the bracket; and a damper connected to the bracket.

A guide apparatus for a line guide device comprising at least one such device, wherein the line guide device has a free internal cross-section for receiving at least one line and a plurality of successively arranged portions which are spatially deflectable relative to each other and it can be disposed in an arrangement comprising a lower run, an upper run and a deflection region connecting same and having a deflection axis, wherein the guide apparatus is formed at least with a longitudinal portion thereof or over the entire length thereof, with which it guides the line guide device in the longitudinal direction thereof, with a C-shaped guide region having a curvature axis of the C-arc and having a concave arc inner curvature and a convex arc outer curvature. The guide apparatus has a deflection device having a deflection axis, wherein the deflection region of the line guide device is guided around the deflection device, and the axis of the deflection device includes an angle with the curvature axis of the C-shaped guide region of the guide apparatus, wherein one of the side boundaries of the line guide device is arranged facing towards the convexly curved outside of the C-shaped guide region of the guide apparatus.

A cable reel is disclosed having an outer deployment spool for deployment and retractive coiling of cable based on rotation about a central axis. The cable reel also has an inner, coaxial drum in which stored cable assumes tighter loops and relaxed loops responsive to the deployment or coiling of the cable on the outer spool. The cable extends from the inner drum through an opening in an axial tube and out of the drum orthogonally. The cable is contiguous from the deployable end on the outer spool, through the inner drum coils and through the axial tube. The reel may have a resistive spring or other means of retraction. The disclosed cable is not subject to acute bends, turns or torsion upon its long axis through deployed and retracted phases.

In order for a suitable restoring force to be exerted in a device for guiding at least one line of an articulated-arm robot, a restoring mechanism for exerting an elastic restoring force is provided. The restoring mechanism includes a guide unit and a slider element which is displaceably mounted on the guide unit. An elastic restoring unit, which has at least one deflection element, which is preferably configured as a deflection roller, and a flexural strand-shaped connection element, is disposed between the slider element and the guide unit. The restoring mechanism is housed in a closed housing and the line is connected to a slider element of the restoring unit inside the housing through one or two longitudinal slots.

A system (e.g., an ultrasound imaging system) is provided. The system includes an ultrasound probe having a cable, and an ultrasound probe holder configured to receive the ultrasound probe. The system further includes a housing supported by a base. The housing includes a connector port and a cable manage passage. The cable manage passage positioned at an upper end of the housing distal to the base. The cable extending through the cable manage passage and is attached to the connector port. The ultrasound probe holder is coupled to a front side of the housing.

The present disclosure relates to a method for festooning a power cable while deploying it in a deployment site comprising a rail having a start and an end, the method comprising the steps of: providing the cable with a plurality of cable holders slidably movable along the rail, each two consecutive holders being spaced at a holder predetermined distance on the cable; providing a festooning apparatus after the start of the rail, the festooning apparatus comprising a lowering device movable between a raised position and a lowered position; deploying the cable along the rail by repeating the following sub-steps: engaging on the rail one holder after the other and moving them thereon; when one holder oversteps the festooning apparatus, operating the festooning apparatus to move the lowering device from the raised position towards the lowered position, thus engaging the cable at a point between two consecutive holders; when the lowering device reaches the lowered position, obtaining a sagged portion of cable and a shortening of the holder predetermined distance; operating the festooning apparatus to move the lowering device from the lowered position towards the raised position, thus disengaging it from the cable; fixing the shortened holder predetermined distance between two consecutive holders at each side of the sagged cable portion; and advancing the sagged cable portion along the rail.

An electrical wire routing apparatus with high reliability of a motion returning to the original state after being trampled on. The electrical wire routing apparatus includes an electrical wire guide into which an electrical wire routed between a vehicle body and a movable body such as a slide door is insertable and that interlocks with a motion of the slide door, a stretchable elastic member that is installed between the electrical wire guide and the vehicle body, between the electrical wire guide and the slide door, or partway through the electrical wire guide, and a bracket for guiding a displacement motion of the electrical wire guide when the elastic member stretches or shrinks.

A track assembly for a sliding vehicle door, which includes a wire track extending between a track mount assembly attached to the sliding vehicle door and a body mount component. The wire track comprises a plurality of interconnected links allowing the wire track to articulate in a wire track articulation plane between door closed and door open positions. A wiring harness extends through the wire track. An elastomeric grommet extends from the track mount assembly and surrounds the wiring harness while permitting the wiring harness to twist and bend inside the grommet as the wire track articulates. A roller track is mounted to a vehicle body structure. The body mount component is mounted below the roller track such that the wire track articulation plane is disposed below a lower wall of the roller track.