A stop for stopping a trolley on a rail is described. The trolley comprises a set of wheels, including a first wheel and the rail provides, at least in part, a running surface, including a first portion and a second portion thereof, for the first wheel. The stop comprises an actuator providing a third portion of the running surface between the first portion and the second portion and an arm, coupled to the actuator. The stop is arrangeable in a first configuration, wherein the arm is arranged to block the trolley therepast. The stop is arrangeable in a second configuration, wherein the arm is arranged to allow the trolley therepast. The stop is arranged to move from the first configuration to the second configuration by actuation of the actuator, preferably by a movement of the actuator in a direction transverse to the third portion of the running surface.

For reliable detection of the wear on a cable sheave of a cable car system, the distance between a cable sensor and a hoisting cable is measured when the cable car system is at a standstill and the wear on the at least one cable sheave is deduced from the distance measured at a standstill.

The invention relates to a cableway installation for transporting persons by disengageable vehicles and carrying cable comprising: a first station (1a) equipped with a first end pulley, a second station (1b) equipped with a second end pulley, a relay structure equipped with a first idler pulley and a second idler pulley, a first cable loop engaged with the first end pulley and the first idler pulley, and a second cable loop engaged with the second end pulley and the second idler pulley. The relay structure comprises a transfer system for transferring vehicles between the first cable loop and the second cable loop and a fixed guiding track supporting a structure translationally moveable with respect to the fixed guiding track, the moveable structure bearing the first idler pulley, the second idler pulley and embarking the vehicle transfer system.

A station for a cable transportation system comprising a plurality of transporting units supported and driven outside the station by at least one cable, the station comprising an inlet and an outlet for the transporting units; a guiding device for guiding the transporting units uncoupled from the cable inside the station; an advancing auxiliary device for moving the transporting units along the guiding device; a control unit configured for controlling the advancing auxiliary device so that the advancing auxiliary device can switch, with no service interruption, from a first configuration, wherein the transporting units are individually arranged equidistant from each other and the boarding and landing occur inside the station without stopping the advancing movement, to a second configuration, wherein the transporting units are arranged in equidistant compact groups of at least two units and the boarding and landing occur inside the station by temporarily stopping the transporting units, and vice versa.

An apparatus for moving ropeway vehicles in a ropeway system includes at least one conveying wheel being adjustable in height relative to the vehicles by a lifting device to be brought into abutment against the vehicles for displacing the vehicles along a track using the conveying wheel. An electric lifting device has an electric drive motor with a threaded sleeve or the like to be retained in its height position and rotated by the drive motor and a lifting spindle to be adjusted in height by the threaded sleeve for adjusting the conveying wheel in height. Upper and lower end surfaces of the threaded sleeve and the lifting spindle have stops located approximately in planes normal to the direction of rotation of the threaded sleeve or the like which, in upper and lower end positions of the lifting spindle, abut one another preventing further rotation of the threaded sleeve.

A hybrid cable/rail transportation system comprising: at least one portion of the system configured as a cable transportation system; at least one portion of the system configured as a rail transportation system, a first trolley coupled to the supporting cable and comprising a first coupling device for coupling to the cabin; a second trolley coupled to the rail and comprising a second coupling device for coupling to the cabin; a plurality of transportation units wherein each transportation unit comprises a cabin, each cabin comprising a roof provided with a coupling system configured for coupling the cabin to the first trolley along the system portion configured as a cable transportation system and to the second trolley along the system portion configured as a rail transportation system; wherein the coupling system arranged on the roof of the cabin, the first coupling device of the first trolley and the second coupling device of the second trolley are configured for allowing a progressive passage of the cabin from the first to the second trolley, or vice-versa, without stopping the support.

The invention relates to a tire conveyor for a transport device, in particular gondolas, of a cable car installation. The conveyor includes tires, which are arranged along a track, and a drive train for the tires. The drive train has at least one drive pulley, in particular a belt pulley, and at least one drive device, in particular a belt. A guide is arranged along the track, at least in some sections, and at least one measurement device for measuring at least one property of the drive train or a component of the drive train is displaceable on the guide.

A stop for stopping a trolley on a rail is described. The trolley comprises a set of wheels, including a first wheel and the rail provides, at least in part, a running surface, including a first portion and a second portion thereof, for the first wheel. The stop comprises an actuator providing a third portion of the running surface between the first portion and the second portion and an arm, coupled to the actuator. The stop is arrangeable in a first configuration, wherein the arm is arranged to block the trolley therepast. The stop is arrangeable in a second configuration, wherein the arm is arranged to allow the trolley therepast. The stop is arranged to move from the first configuration to the second configuration by actuation of the actuator, preferably by a movement of the actuator in a direction transverse to the third portion of the running surface.

A system and method to ensure a sufficient amount of electrical energy is supplied to a cable-drawn vehicle of a transportation device. Electrical loads of the vehicle are supplied with power outside a station by an electrical energy store of the vehicle or by both an electrical energy store and the generator during a first movement phase, in which the vehicle is accelerated to a limit speed or, conversely, decelerated from a limit speed into a station. In a subsequent second movement phase, the vehicle is supplied with electrical energy by the generator while the vehicle moves at a speed that is greater than the limit speed.

The boarding area (A, B, C) of a transport means is divided into at least two gates (1, 2, 3), the maximum person capacity of which corresponds, respectively, to the maximum capacity of the largest transport device (9) that is accessible via the boarding area (A, B, C). Entrance into the gates (1, 2, 3) is effected via at least one separating device (4) connected with a control system (5) for the purpose of data communication. Entrance into each gate (1, 2, 3) is not possible once the number of persons in the gate (1, 2, 3) specified by the control system (5) for the current boarding operation is reached, or while the persons inside the gate (1, 2, 3) board the transport car. The number of persons in each gate (1, 2, 3) for the current boarding operation is determined by the control system (5) in dependence upon the transport demand in subsequent intermediate stations ahead of an end station, provided such intermediate stations are present, and of the free capacity of the arriving transport car (9). For the current boarding operation, the persons inside each gate (1, 2, 3) are assigned to the arriving transport car (9). When the number of persons inside the gate (1, 2, 3), as specified for the current boarding operation, has been reached, or when a timer which corresponds to a specified time window has expired and the transport car (9) arrives to which the persons currently in the gate (1, 2, 3) are assigned, the persons who are inside the gate (1, 2, 3) are requested to board and a counter for the number of persons in the gate (1, 2, 3) is set to zero.