Cableway installation (10), comprising at least a housing (11) suitable to carry passengers and equipped with a safety device (12) which is movable between an access configuration and a safety configuration. The installation (10) comprises: radiation emitting means (13); reflecting means (14), adapted to reflect said radiation; receiving means (15), adapted to receive a reflection of said radiation emitted by said reflecting means (14). The emitting means (13), the reflecting means (14) and the receiving means (15) are arranged in such a way that, in at least a predefined operating condition, the emitting means (13) are facing the reflecting means (14), to irradiate them, and the reflecting means (14) are facing the receiving means (15) to reflect the radiation towards them. The reflecting means (14) are fixed to the safety device (12) so as to reflect the radiation differently depending on whether the safety device (12) is in the access configuration or in the safety configuration.

Disclosed herein are devices and methods providing directed media content to an individual on a mobile unit, as well as devices and methods for the rapid storage of power on mobile units to power the devices providing media content to an individual user. The disclosed devices and methods allow for such mobile units to power electronic components located on the mobile units. Furthermore, the disclosed devices and methods allow for securing a media-delivery device to a safety bar or other portion of a mobile unit without comprising the safety or integrity of the mobile unit.

A circulating cableway having at least two cableway stations and a plurality of cableway vehicles which can be moved between the cableway stations with a conveyor cable, wherein each cableway vehicle has a cabin for receiving objects, and wherein a control unit is provided for controlling the circulating cableway, also includes a first detection device in at least a first of the at least two cableway stations configured to detect an object provided for loading in a cabin of a cableway vehicle in a loading region of the first cableway station and to determine an object type for the object, and wherein the control unit is configured to operate the circulating cableway in a defined transport operating mode when the object type determined for the object is a specified object type. An associated method of operating a circulating cableway is also disclosed.

A circulating cableway having at least two cableway stations and a plurality of cableway vehicles which can be moved between the cableway stations with a conveyor cable, wherein each cableway vehicle has a cabin for receiving objects, and wherein a control unit is provided for controlling the circulating cableway, also includes a first detection device in at least a first of the at least two cableway stations configured to detect an object provided for loading in a cabin of a cableway vehicle in a loading region of the first cableway station and to determine an object type for the object, and wherein the control unit is configured to operate the circulating cableway in a defined transport operating mode when the object type determined for the object is a specified object type. An associated method of operating a circulating cableway is also disclosed.

A cable transportation system without a hauling cable and comprising: a plurality of transporting units; two supporting cables for supporting the transporting units in a suspended configuration; a plurality of trolleys, wherein each trolley supports a transporting unit in a suspended configuration and comprises rolls configured for resting and rolling on the supporting cables and at least one electric motor configured for moving the trolley along the supporting cables.

A funicular intended particularly for transporting heavy loads between an upstream station (10) and a downstream station (12), comprises a railway track (14) connecting the upstream station (10) to the downstream station (12) and a vehicle (16) running on the track (14) and drawn by at least one towing cable (30). The vehicle comprises a chassis (50) defining a median longitudinal vertical plane that rests on at least one pendulum running gear, comprising two independent lateral pendulum devices (60) each comprising a secondary pendulum (62) articulated in relation to the chassis (50) and two primary pendulums, each articulated in relation to the secondary pendulum (62). Each lateral pendulum device (60) comprises a plate (64) connected to the chassis (50) via one or several jacks (66) to which the secondary pendulum device (62) is articulated.

A funicular intended particularly for transporting heavy loads between an upstream station (10) and a downstream station (12), comprises a railway track (14) connecting the upstream station (10) to the downstream station (12) and a vehicle (16) running on the track (14) and drawn by at least one towing cable (30). The vehicle comprises a chassis (50) defining a median longitudinal vertical plane that rests on at least one pendulum running gear, comprising two independent lateral pendulum devices (60) situated on either side of the median longitudinal vertical plane, wherein each lateral pendulum device (60) comprises a secondary pendulum (62) articulated in relation to the chassis (50) around a horizontal secondary pivot axis and two primary pendulums, each articulated in relation to the secondary pendulum (62) around a horizontal primary pivot axis, wherein the primary pivot axes of the two primary pendulums are spaced apart from one another longitudinally on either side of the secondary pivot axis, wherein each primary pendulum is associated with at least two support rollers designed to run on the railway track (14), each rotating around a rotation axis parallel to the primary pivot axis of the associated primary pendulum and situated longitudinally on either side of the primary pivot axis of the associated primary pendulum.

A funicular intended particularly for transporting heavy loads between an upstream station (10) and a downstream station (12), comprises a track (14), preferably a railway, connecting the upstream station (10) to the downstream station (12), a vehicle (16) running on the track (14) and at least one towing cable (30) in closed loop having a first towing section (32.1) passing over a first pulley (20.1) of the upstream station and over a first return pulley (26) fixed to the vehicle (16) and a second towing section (32.2), in all ways separate from the first towing section and passing over the return pulley (26) and over a second pulley (20.2) of the upstream station (10).

Data are transmitted from a secondary station to a master station along a segmented path, wherein two contiguous segments are respectively connected by a node and wherein the path has at least three segments with at least two nodes. The data from the secondary station are split into N data packets, where N is the number of nodes. The data packets are marked distinguishably, each marking corresponding to a particular node on the path. Each data packet along the path is forwarded only to the adjacent node or adjacent station. Each node checks to determine whether the marking of the packet corresponds to the respective node. If so, data from the node are added to the data packet. The data packets are collected in the master station. The data transmission is concluded successfully if all N data packets with data from all N nodes are present.

Data are transmitted from a secondary station to a master station along a segmented path, wherein two contiguous segments are respectively connected by a node and wherein the path has at least three segments with at least two nodes. The data from the secondary station are split into N data packets, where N is the number of nodes. The data packets are marked distinguishably, each marking corresponding to a particular node on the path. Each data packet along the path is forwarded only to the adjacent node or adjacent station. Each node checks to determine whether the marking of the packet corresponds to the respective node. If so, data from the node are added to the data packet. The data packets are collected in the master station. The data transmission is concluded successfully if all N data packets with data from all N nodes are present.