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.

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 conveyor system includes a rail having one or more channels therein and one or more sleds operatively associated with the rail. A sled can include a body and one or more wheels mounted on the body and configured to move through the one or more channels in the rail. A sled can also include a holding device connected to the body. The holding device can be configured to engage a packaging container to move the packaging container along the rail. Multiple sleds can be used to secure a packaging container therebetween and move the packaging container along the rail. The conveyor system may also include a queue system that dynamically moves packaging containers to packaging stations.

Disclosed are a matrix track system, a production line with associated loops and a production method using the production line. The matrix track system includes a plurality of track nodes which are arranged in a matrix and a plurality of fixed guide rails connecting the track nodes. The fixed guide rails include a plurality of longitudinal guide rails and a plurality of transverse guide rails. Each of the track nodes includes a turnout mechanism which includes a straight guide rail, an arc guide rail and a switch component for the switching of the straight guide rail and the arc guide rail.

Disclosed are a matrix track system, a production line with associated loops and a production method using the production line. The matrix track system includes a plurality of track nodes which are arranged in a matrix and a plurality of fixed guide rails connecting the track nodes. The fixed guide rails include a plurality of longitudinal guide rails and a plurality of transverse guide rails. Each of the track nodes includes a turnout mechanism which includes a straight guide rail, an arc guide rail and a switch component for the switching of the straight guide rail and the arc guide rail.

A system for managing the transportation of crude oil by rail includes a user terminal having a display screen and a processing system coupled to the user terminal through a communications link. The processing system is operable to generate a user interface on the display screen of the user terminal receiving input information from a user, including information indicating a loading facility for loading a selected set of railcars and an unloading facility for unloading the selected set of railcars. The processing system is further operable to forecast an arrival time for the set of cars at the loading facility and an arrival time for the set of cars at the unloading facility and display the forecasted arrival times at the loading and unloading facilities on the display screen of the user terminal.

A rail system includes a main track, a spur track connected to the main track by a switch changeable between a closed state and an open state, and a station spaced from the main track and accessible by the spur track. The rail system further includes a train with a passenger car and an EMDI releasably coupleable behind the passenger car. A method of operating the rail system includes decoupling the EMDI from the passenger car when the train is moving at a first speed toward the switch in the closed state. The EMDI is decelerated to a second speed less than the first speed. After the train has moved past the switch and the switch has been changed to the open state, the EMDI is diverted from the main track to the spur track via the switch in the open state and decelerated to a stop at the station.

A rail system includes a main track, a spur track connected to the main track by a switch changeable between a closed state and an open state, and a station spaced from the main track and accessible by the spur track. The rail system further includes a train with a passenger car and an EMDI releasably coupleable behind the passenger car. A method of operating the rail system includes decoupling the EMDI from the passenger car when the train is moving at a first speed toward the switch in the closed state. The EMDI is decelerated to a second speed less than the first speed. After the train has moved past the switch and the switch has been changed to the open state, the EMDI is diverted from the main track to the spur track via the switch in the open state and decelerated to a stop at the station.

This system utilizes autonomous rail cars that automatically couple and uncouple to and from a primary moving train. The primary train travels along a given route but never needs to stop at intermediate stations. Instead, autonomous rail cars gather passengers or goods at designated station locations and then automatically depart in order to meet up with the primary train. When the autonomous rail cars couple to the primary train, the contents of the autonomous rail car are transferred to the primary train. Likewise, contents that are already aboard the primary train which need to depart will be loaded onto this autonomous rail car. When the primary train approaches the next station, the autonomous rail car will detach and stop at the station while the primary train continues to travel on. This process repeats for each station on the route.

This system utilizes autonomous rail cars that automatically couple and uncouple to and from a primary moving train. The primary train travels along a given route but never needs to stop at intermediate stations. Instead, autonomous rail cars gather passengers or goods at designated station locations and then automatically depart in order to meet up with the primary train. When the autonomous rail cars couple to the primary train, the contents of the autonomous rail car are transferred to the primary train. Likewise, contents that are already aboard the primary train which need to depart will be loaded onto this autonomous rail car. When the primary train approaches the next station, the autonomous rail car will detach and stop at the station while the primary train continues to travel on. This process repeats for each station on the route.