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) 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 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).

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).

A high-carrying-capacity non-stop rail transit system, wherein, comprising a main passage, a main rail arranged in the main passage, an exit and entrance passage and independent small compartments, wherein, the independent small compartment is provided with a connecting device, the exit and entrance passage is provided with a rail change structure, the connecting device realizes transfer and rail change between the main passage and the exit and entrance passage through the rail change structure, the main rail is used to place the independent small compartment and drive the independent small compartment to move. The system adopts the independent small compartment mode, so every passenger has a seat and the non-stop purpose is realized; stable and continuous kinetic energy for advancing are provided; and the independent small compartments have no relative displacement and can reach a high speed under high density.

A high-carrying-capacity non-stop rail transit system, wherein, comprising a main passage, a main rail arranged in the main passage, an exit and entrance passage and independent small compartments, wherein, the independent small compartment is provided with a connecting device, the exit and entrance passage is provided with a rail change structure, the connecting device realizes transfer and rail change between the main passage and the exit and entrance passage through the rail change structure, the main rail is used to place the independent small compartment and drive the independent small compartment to move. The system adopts the independent small compartment mode, so every passenger has a seat and the non-stop purpose is realized; stable and continuous kinetic energy for advancing are provided; and the independent small compartments have no relative displacement and can reach a high speed under high density.

A system is revealed comprising existing dual-mode road-rail vehicles and railway vehicles with all vehicles having modern wireless mobile communications and GPS facilities, operating on existing railways, roadways, and roadway-railway crossings for the transportation, pickup, and drop off of passengers and of goods within and about an urban city environment. Fundamental to this system is incorporation methods of modern computer vehicle monitoring and marshalling facilities administering computer fuzzy logic assessment active engines for scheduling, monitoring, and controlling the operation of the vehicles and for providing the communications with the vehicles and the marshalling facilities in the network. The marshalling facilities schedule the operation of the vehicles on the railways and of the vehicles on the roadways, and the entry to or egress from the railways by the dual-mode vehicles, and the pickup and drop off of passengers and goods, thereby providing an optimized and safe transportation networked system.

An overhead transport vehicle includes a vibration-proof portion disposed between a belt and a lift device. The vibration-proof portion includes a first connection mechanism disposed on a side where a first load acts in a width direction perpendicular or substantially perpendicular to both a travelling direction and a lifting direction of the lift device, and a second connection mechanism disposed on a side where a second load larger than the first load acts in the width direction, and which has a larger repulsive force than that of the first connection mechanism.