A line routing device for guiding a plurality of lines, such as cables, hoses, or the like, particularly for hanging applications, such as supplying a vertically traveling power head of a drill. The line routing device has a flexible carrying strand and a plurality of guide bodies arranged one behind the other in the longitudinal direction of the carrying strand. According to the invention, adjacent guide bodies can be deflected spatially toward each other and each guide body has a central part having a center axis, which extends coaxially to the carrying strand, and an outer part having at least one circumferential element. The outer part delimits a receiving region, which is open in the axial direction, for the lines, radially to the outside.

A smart cord reel cable including at least one sensor for measuring cord or cord reel usage, a memory for receiving sensor input to create usage records, and a processor for analyzing the usage records to provide information for maintenance status indication and/or usage analytics.

A smart cord reel cable including at least one sensor for measuring cord or cord reel usage, a memory for receiving sensor input to create usage records, and a processor for analyzing the usage records to provide information for maintenance status indication and/or usage analytics.

A surgical table includes a base, a tabletop, first and second frameworks, a cable, and a cable take-up mechanism. The first and second frameworks are moveable relative to one another to move the tabletop relative to the base in a first direction and a second direction that is opposite the first direction. The cable has a first end, a second end that is opposite the first end, and an intermediate portion. The first and second ends are mounted to the respective first and second frameworks. The cable take-up mechanism includes a constant-force spring coupled to the intermediate portion of the cable to take up slack in the cable as the first and second frameworks move relative to one another to move the tabletop relative to the base.

A charging robot for charging an electrical energy store of a vehicle, includes a supporting structure, at least one wheel which is fastened rotatably to the supporting structure, a drive unit which is fastened to the supporting structure and with which the wheel can be driven, a first receiving compartment which is fastened to the supporting structure or is formed by the supporting structure, and a second receiving compartment which is fastened to the supporting structure or is formed by the supporting structure. The first receiving compartment and the second receiving compartment are arranged next to each other. A lifting device is arranged in the first receiving compartment and has a contact portion fastened thereto. The contact portion is connectable in an electrically transmitting manner to a mating contact portion of the vehicle. A charging cable is conductively connected to the contact portion.

A device for storing at least one cable, in particular a cable retractor, includes: a housing; at least one receiving piston that extends in the housing, preferably rectilinearly; at least one deflection roller that is mounted axially rotatably on the at least one receiving piston and is intended to guide cables; and at least one discharge valve for discharging air between a lower side of the at least one receiving piston and the housing into an outer region of the device. The device also includes at least one admission valve for admitting air from the outer region of the device into the region between the lower side of the at least one receiving piston and the housing.

A line cable comprises one or more conductors for transmitting electrical power and/or data and an elongate supporting element. A related power supply system for supplying electrical power and/or data to a movable electrical load via cables comprises at least one feed device and a connecting element, which can be connected to the feed device, of a line cable of the load. The line cable can be output or retrieved from a reservoir, which is carried along by the load, in accordance with a distance between the reservoir and the feed device. A connecting element for connection to a connection of a feed device for electrical power and/or data is arranged at one end of the line cable. The supporting element can be connected to the connecting element in a force-fitting and/or interlocking manner for the purpose of transmitting longitudinal tensile forces.

A cord management system for a cabinet or other similar furniture, appliances, or other applications include a conduit. A cord management weight is disposed within the conduit. The cord management weight includes a cord receiving portion and a weight locking feature. The cord receiving portion is configured to receive a portion of an electrical cord of an electronic device. The weight locking feature is configured to selectively prevent translational movement of the cord management weight within the conduit. The cord management weight is configured to be selectively retracted into the conduit and locked into position within the conduit.

An integrated latching mechanism includes a slider button. At least one curved elastic arm extends from the slider button and is configured such that in response to an external force urging the slider button in a first direction, the curved elastic arm is distorted such that upon removal of the external force, the curved elastic arm moves the slider button in a direction opposite to the first direction. A locking part is contiguous with the slider button and extends away from the slider button. In response to the external force urging the slider button in the first direction, the locking part moves in the first direction, and upon removal of the external force, the curved elastic arm moves the locking part in the direction opposite to the first direction. The at least one curved elastic arm, the slider button, and the locking part form a single piece of elastic material.

A UAV tether management system comprising: a tether-wound spool rotatably mounted on a base station, a free-pivoting angle arm, and an angle arm encoder, wherein the tether is configured to transfer power from the base station to the UAV while the UAV is in flight, and the angle arm comprises a tether guide mounted to a proximal end of the angle arm such that the tether passes through the tether guide as the tether pays out of, or is taken up by, the spool, wherein the angle arm further comprises a counter weight mounted to a distal end of the angle arm such that a center of mass of the angle arm is aligned with the spool's axis of rotation, and wherein the angle arm encoder is configured to measure an offset angle of the angle arm.