A system for supplying at least one electrical load or energy storage device with direct current by way of a plurality of electrical generators that are mounted to at rollers, in particular track rollers or support rollers, of a cable car system. The output of each of the generators leads to a respective AC/DC converter. All AC/DC converters are controlled or regulated by a control unit to the extent that at least approximately identical constant voltages are present at their outputs. The outputs of all AC/DC converters are connected to one another and are connected to the at least one load or energy storage device.

The invention relates to a transport facility (100), having a first traction cable (11) that describes a first closed loop (10) and is configured to be driven by at least a first drive means (12) at a nominal linear velocity, and a vehicle (30) having a coupling device (31) for coupling the vehicle to the first traction cable, the transport facility comprising at least a first traffic lane (101) having at least a first segment (110) comprising at least one track (111) along the first traction cable, the first traffic lane comprising at least a second segment (120), the transport facility being configured so that the vehicle is coupled to the first traction cable and pulled by same at the nominal velocity so as to pass through the first segment and the second segment, the first traction cable fully supporting the vehicle and driving it at the nominal speed along the second segment.

An aerial ropeway hazard sensing system including a radar sensing unit mounted at a position along a ropeway that generates radar data representative of predetermined ropeway conditions proximate the radar sensing unit, and a processor that analyzes data from the radar sensing unit to detect predetermined hazard conditions and to generate a hazard detection signal indicative thereof. A method of performing an aerial ropeway safety function comprises using radar to detect a hazard condition and generating a hazard detection signal in response thereto; generating a control signal in response to the hazard detection signal; and initiating a safety with the control signal.

An aerial ropeway hazard sensing system including a radar sensing unit mounted at a position along a ropeway that generates radar data representative of predetermined ropeway conditions proximate the radar sensing unit, and a processor that analyzes data from the radar sensing unit to detect predetermined hazard conditions and to generate a hazard detection signal indicative thereof. A method of performing an aerial ropeway safety function comprises using radar to detect a hazard condition and generating a hazard detection signal in response thereto; generating a control signal in response to the hazard detection signal; and initiating a safety with the control signal.

A cable car system includes vehicles that are clamped to a hauling cable along the route and decoupled from the hauling cable upon entering the stations. The vehicles are moved through the stations by control tires which are coupled to one another by gear mechanisms and driven via a supporting pulley for the hauling cable. The control tires are mounted on a supporting frame on at least one supporting structure. The rotation of the supporting pulley that drives the control tires is derived from the hauling cable by way of a drive belt. The drive belt runs over the supporting pulley, which is mounted on a pivotable rocker, and over at least one control tire. The pivotable rocker is mounted on the supporting structure for the supporting frame, or the pivotable rocker is mounted on a supporting structure to which the supporting frame is not attached.

A cable car system includes vehicles that are clamped to a hauling cable along the route and decoupled from the hauling cable upon entering the stations. The vehicles are moved through the stations by control tires which are coupled to one another by gear mechanisms and driven via a supporting pulley for the hauling cable. The control tires are mounted on a supporting frame on at least one supporting structure. The rotation of the supporting pulley that drives the control tires is derived from the hauling cable by way of a drive belt. The drive belt runs over the supporting pulley, which is mounted on a pivotable rocker, and over at least one control tire. The pivotable rocker is mounted on the supporting structure for the supporting frame, or the pivotable rocker is mounted on a supporting structure to which the supporting frame is not attached.

A system, method and device for moving gondola cabins in a single vertical loop so as to pass above and below with end stations turning wheels placed vertically. The hauling ropes operate in a vertical loop and permit the vertical circulation of the cabins between stations with passenger boarding and deboarding of the cabins in the stations at two different levels. The system may be twinned to provide two parallel, horizontally adjacent systems operating on common towers to double the capacity of a single system. Both the single and twinned systems possess a smaller footprint than conventional horizontal transport systems.

A system, method and device for moving gondola cabins in a single vertical loop so as to pass above and below with end stations turning wheels placed vertically. The hauling ropes operate in a vertical loop and permit the vertical circulation of the cabins between stations with passenger boarding and deboarding of the cabins in the stations at two different levels. The system may be twinned to provide two parallel, horizontally adjacent systems operating on common towers to double the capacity of a single system. Both the single and twinned systems possess a smaller footprint than conventional horizontal transport systems.

In a continuously moving cableway installation (9), a haul rope (13b) extends as a closed loop defining a transportation path (12). Suspended vehicles (14) can be connected to the rope by means of automatic coupling devices (24). Along the rope path, passenger stations (10) are provided, each providing ramps (22) to cause the clamping or release of the automatic coupling devices (24), fixed power supply conductors (30), and overhead rails (28). Mounted on board each vehicle (14) are: a motor-driven trolley (20), an electrical contact (30a) to contact one of the power supply conductors (30) in the passenger stations (10), an electric power battery (43), and an electric motor (42) with driving wheels (40) associated thereto, which are suitable for rolling on the overhead rails (28) in order to move the vehicle within and proximate to the passenger stations.

In a continuously moving cableway installation (9), a haul rope (13b) extends as a closed loop defining a transportation path (12). Suspended vehicles (14) can be connected to the rope by means of automatic coupling devices (24). Along the rope path, passenger stations (10) are provided, each providing ramps (22) to cause the clamping or release of the automatic coupling devices (24), fixed power supply conductors (30), and overhead rails (28). Mounted on board each vehicle (14) are: a motor-driven trolley (20), an electrical contact (30a) to contact one of the power supply conductors (30) in the passenger stations (10), an electric power battery (43), and an electric motor (42) with driving wheels (40) associated thereto, which are suitable for rolling on the overhead rails (28) in order to move the vehicle within and proximate to the passenger stations.