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.

Transport vehicle designed to be pulled by an overhead cable, including an attachment device configured to attach the vehicle to the overhead cable, a support structure configured to support at least one chair, and a hanger arm connecting the support structure to the attachment device, said at least one chair being mounted rotationally on the support structure.

A display system is easily attached to the safety bar of a chair on a chair lift system at the beginning of a season. The display system includes brackets formed of rails holding clamp portions that may be fastened together to clamp the display system to a chair, such as to the safety bar across the lap of a rider. At the end of a season, the display system may be removed from each chair, the clamp portions removed, and the display systems stacked. In one simplified system, adjacent displays may be stacked back to back, and such adjacent pairs may be stacked with the displays in adjacent pairs positioned face-to-face. Thus, metal brackets on the backs need not scratch up the reading faces or surfaces. Meanwhile, the displays may be stored in minimal space, with great stability, while minimizing wear and damage.

A cable trolley adapted to transport a user and allow evacuation of the user at an elevation from a ground level, the cable trolley including a connecting member; a carrier configured for accommodating the user, the carrier comprising an opening configured for access by the user and the connecting member is configured to connect the carrier at a first end of the connecting member to a transport structure at a second end of the connecting member; an elongated member configured to be attached to the connecting member at a first end of the elongated member; and a cable, wherein a first end of the cable is configured to be attached to a second end of the elongated member and a second end of the cable is configured to substantially reach the ground level.

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.

Underground distribution system for the distribution of goods in an urban environment including at least one micro-tunnel forming at least one loop, extending under the foundations of preexisting surface buildings and/or infrastructures, in which goods, the transportation of which is automated, circulate, and a plurality of exchange stations exchanging with the surface, each including a shaft allowing goods to be lowered down to the micro-tunnel and raised back up after they have been transported within the micro-tunnel.

Emergency egress systems carry multiple riders simultaneously accessing zip line catenary from higher, inaccessible, working locations to lower, safer areas. Hangers above the track line suspend trolleys to avoid weighting the catenary unduly at the high end, which might otherwise alter (reduce) clearance distances and safety of riders above a launch platform (deck). Catenary shape is controlled against approaching a launch deck by sequencing the release from the hangers of each trolley to roll along the catenary with its own rider. Autonomous braking, inter-trolley bumpers, and vertical stabilizers enable each rider to quickly occupy a seat (harness, etc.) and launch onto the track line, unconcerned with riders ahead or behind until underway. Multiple trolleys may thus load, launch, and in close proximity on a single line, regardless of the total weight of multiple riders.

A canopy tour system follow a route including multiple legs of track line, and may run multiple track lines in parallel along each leg, establishing the route of descent. Each leg extends between an associated upper station and lower station, used for loading, launching, receiving, and unclipping, respectively, riders of trolleys on the zip lines. A system of mechanical and electronic interlocks provides safety for users in remote locations, enabling individual riders to operate trolleys, including attaching and dis-attaching the trolleys from various track lines, unattended by other workers or employees of the canopy tour operation. Multiple trolleys may travel simultaneously and in close proximity to one another as a group on a single line. Each group traveling together is controlled by a single braking trolley ahead, behind, or in the midst of the group.

The disclosure relates to a transportation system for urban mass transit that employs an array of narrow, elevated towers supporting stationary electrified cables. Self-propelled gondolas equipped with electric motors and regenerative braking systems traverse these cables, transporting passengers between various ground-level stations. The gondolas are capable of attaching to and detaching from the cables via an automated mechanism controlled by an onboard computer. The system is modular, allowing for scalable adaptation to urban environments and incorporates solar panels for energy generation. The system's design minimizes urban land use, offering an environmentally conscious alternative to traditional mass transit systems.

Emergency egress systems carry multiple riders simultaneously accessing a zip line (catenary) from higher, accessible, working locations to lower, safer areas in a marine environment. Hangers above the track line suspend trolleys to avoid weighting the catenary unduly at the high end, which might otherwise alter (reduce) clearance distances and safety of riders above a launch platform (deck). Catenary shape is controlled against approaching the launch deck by sequencing the release from the hangers of each trolley to roll along the catenary with its own rider. Track line systems installed may be left undeployed indefinitely. Deployment of a track line will typically be fully effected at the time of egress, adding time but eliminating permanent obstructions that would result if a permanent deployment of track lines were undertaken. Terminal ends are anchored and configured to accommodate workers arriving after escape.