A railcar consist of flatcars for transporting continuous rail sections configured for top loading and end unloading of the rail sections. The consist includes a tie-down flatcar and plural support flatcars. The tie-down flatcar includes a rail securement rack with plural removable rail clamping shelves that facilitate top loading and clamping of the rail sections in place. Each of the plural support flatcars have a roller rack fixed to it. The roller racks include plural roller shelves with rollers to support the rail sections. The roller shelves are pivotally mounted to the roller racks between a loading position that provides clearance for placement of the rail sections from above the consist, and a transport position that supports the rail sections.

A railcar consist of flatcars for transporting continuous rail sections configured for top loading and end unloading of the rail sections. The consist includes a tie-down flatcar and plural support flatcars. The tie-down flatcar includes a rail securement rack with plural removable rail clamping shelves that facilitate top loading and clamping of the rail sections in place. Each of the plural support flatcars have a roller rack fixed to it. The roller racks include plural roller shelves with rollers to support the rail sections. The roller shelves are pivotally mounted to the roller racks between a loading position that provides clearance for placement of the rail sections from above the consist, and a transport position that supports the rail sections.

A transfer arrangement for transferring a semi-trailer onto an intermodal pocket wagon from a ground location beside the wagon, or vice versa, may include base roller beams of a first lifting mechanism supported by the ground at the ground location and intended for lifting the semi-trailer up from the ground. Corresponding wagon roller beams of a second lifting mechanism may be supported by the rail or the ground under the wagon. The wagon roller beams may be elevated to substantially the same height as the base roller beams or lowered towards the ground. A transfer mechanism may be provided for transferring the semi-trailer sideways from the first lifting mechanism to the second lifting mechanism in the elevated condition thereof.

The invention described refers to an equipment and corresponding method that enables side sliding load transfer between one vehicle/structure acting as loader, and another vehicle/structure acting as receptor. Both loaders and receptors can be vehicles or piers using a side sliding loading system that includes lifting and lateral displacement equipment. The great innovation of this system is the appearing of carriages consisting of 2 chassis, one inferior and one superior, both mobile and independent, that are coupled to form a single carriage. One of the equipment developed, automatically auto-load/unload standard containers to/from railway wagons and fixed platforms. This equipment can be loaded directly by the pier crane and move autonomously to the loading areas of railway wagons, trucks or buffer areas, where the containers are organized on leaving the port. When groups of these vehicles lined up parallel to the railway track, loaded on one side and empty on the other, they can load and unload the train quickly and simultaneously.

The invention described refers to an equipment and corresponding method that enables side sliding load transfer between one vehicle/structure acting as loader, and another vehicle/structure acting as receptor. Both loaders and receptors can be vehicles or piers using a side sliding loading system that includes lifting and lateral displacement equipment. The great innovation of this system is the appearing of carriages consisting of 2 chassis, one inferior and one superior, both mobile and independent, that are coupled to form a single carriage. One of the equipment developed, automatically auto-load/unload standard containers to/from railway wagons and fixed platforms. This equipment can be loaded directly by the pier crane and move autonomously to the loading areas of railway wagons, trucks or buffer areas, where the containers are organized on leaving the port. When groups of these vehicles lined up parallel to the railway track, loaded on one side and empty on the other, they can load and unload the train quickly and simultaneously.

An intermodal transportation system is provided having interconnected railcars adapted for transporting interconnected freight trailers where the freight trailers remain connected while being transported on the railcars. Individual trailers are dropped off at a railyard by over-the-road tractors and are then transported onto the railcars using various means as makes sense due to weather, location, and other factors.

The invention relates to a railway wagon comprising a load carrier (7) and front and rear bogies (8), each of the bogies being provided with railway track wheels and being electrically, hydraulically and/or pneumatically connected to the load carrier by means of one or more electric cables, hydraulic and/or pneumatic tubings (5). The load carrier is releasably connected to the respective bogies, and in a released state laterally displaceable in relation to the respective bogies by means of a displacement device. The load carrier has a front and a rear end and is at each end provided with a support device and a ramp (13), wherein the support device is adapted to support the load carrier on the ground in a position where it is displaced in relation to the bogie, whereas the ramp is along an inner edge pivotally connected to the end of the load carrier. The ramp is provided with a suspension device on the underside of the ramp including a guide arrangement (1) extending transverse in relation to a longitudinal axis of the load carrier, along which guide arrangement a slider (2) is displaceably movable, wherein the slider is provided with a holder (3) for holding of the one or more cables and/or tubings while allowing transverse movement of the cables and/or tubings together with the slider and holder along the guide arrangement.

An apparatus for calibrating a rail scale is described. The apparatus is attached to a first trailer and a second trailer and the move from a first site to a rail scale site over highways and roads. The apparatus includes a calibration vehicle, bins of weights, and a crane. The crane positions the calibration vehicle, that is self-propelled, on rails and loads weights on the calibration vehicle. The combined weight of the calibration vehicle and weights has qualifying values that ensures a scale is in compliance rail scale calibration standards.

A train system having a train element consisting of a single train car configured to travel along a rail system, and including an enclosed first use area and a flat car section. The flat car section includes a drive-on loading area configured to enable a vehicle to be driven onto the flat car section and then transported by the train car. Train element includes a drive system for moving the train element along the rail system and a control system for autonomously controlling the operation of the train car. A sensor system collects sensor data and provides the sensor data, as inputs, to the control system. Sensor data is used by the control system in operating the train car. Lastly, a power system independently powers the drive system and control system.

The present disclosure relates to an autonomous rail transport system with the aid of a rail network. The rail transport system according to the disclosure comprises at least one autonomous goods-carrying rail vehicle and at least two autonomous goods terminals. The goods-carrying rail vehicle is designed to transport at least one item of goods while the goods terminals are each designed to receive and/or release at least one item of goods. The item of goods is transported autonomously from a first goods terminal to a second goods terminal with the aid of the goods-carrying rail vehicle on the rail network. The rail network of the rail transport system according to the disclosure is a streetcar-line network.