Disclosed is a raisable carrying device for loading cargo onto a rail vehicle using a hoisting unit, said carrying device comprising at least one supporting unit for the cargo, holding pockets for the hoisting unit, and support surfaces for placing the carrying device directly on the floor of a terminal.

Disclosed is a raisable carrying device for loading cargo onto a rail vehicle using a hoisting unit, said carrying device comprising at least one supporting unit for the cargo, holding pockets for the hoisting unit, and support surfaces for placing the carrying device directly on the floor of a terminal.

A method controls the height of a floor of a car of a vehicle relative to a platform. The car includes a body provided with a distance sensor, at least one bogie and at least one secondary suspension between the bogie and the body. The method includes measuring the distance between the distance sensor and the platform via the distance sensor, calculating the difference between the height of the platform and the height of the floor from the measured distance, and adjusting the height of the secondary suspension based on the difference.

A method controls the height of a floor of a car of a vehicle relative to a platform. The car includes a body provided with a distance sensor, at least one bogie and at least one secondary suspension between the bogie and the body. The method includes measuring the distance between the distance sensor and the platform via the distance sensor, calculating the difference between the height of the platform and the height of the floor from the measured distance, and adjusting the height of the secondary suspension based on the difference.

A transverse trough coil car includes a plurality of transverse troughs, a pair of trucks, a center sill supported on the trucks, a pair of side walls extending the length of the car coupled to the center sill, and a plurality of trough forming assemblies. At least one trough includes integrated manually operated adjustable coil stops configured to prevent lateral shifting of coils carried within the trough. At least one trough includes a vertically adjustable trough height. An upper surface of the troughs are coplanar for selective receipt of slabs, and at least one trough includes integrated fixed side stanchions which includes width adjustment members thereon.

A transverse trough coil car includes a plurality of transverse troughs, a pair of trucks, a center sill supported on the trucks, a pair of side walls extending the length of the car coupled to the center sill, and a plurality of trough forming assemblies. At least one trough includes integrated manually operated adjustable coil stops configured to prevent lateral shifting of coils carried within the trough. At least one trough includes a vertically adjustable trough height. An upper surface of the troughs are coplanar for selective receipt of slabs, and at least one trough includes integrated fixed side stanchions which includes width adjustment members thereon.

A method comprises removing a first deck of a plurality of decks and a second deck of the plurality of decks from an autorack. The method further comprises removing one or more of a plurality of posts of the autorack and coupling a cross-brace assembly to one or more of the plurality of posts, wherein the cross-brace assembly is coupled to the one or more of the plurality of posts at a location above an existing brace bay of the autorack. The method also comprises coupling the second deck of the plurality of decks to the autorack at a location above or below the cross-brace assembly.

A method comprises removing a first deck of a plurality of decks and a second deck of the plurality of decks from an autorack. The method further comprises removing one or more of a plurality of posts of the autorack and coupling a cross-brace assembly to one or more of the plurality of posts, wherein the cross-brace assembly is coupled to the one or more of the plurality of posts at a location above an existing brace bay of the autorack. The method also comprises coupling the second deck of the plurality of decks to the autorack at a location above or below the cross-brace assembly.

A trailer vehicle having a stillage for one or more platform screen door module, wherein a respective first and second lifting module is provided at the respective front and rear end of the trailer vehicle, wherein the lifting module comprises a support bed and post for the platform screen door module, which is configured to laterally translate the or each platform screen door module and is provided with a tilt mechanism The tilt mechanism allows the support post to tilt around 20 degrees forwards and 10 degrees backwards from a plane vertical with respect to the trailer to compensate for positive and negative camber of the tracks.

A trailer vehicle having a stillage for one or more platform screen door module, wherein a respective first and second lifting module is provided at the respective front and rear end of the trailer vehicle, wherein the lifting module comprises a support bed and post for the platform screen door module, which is configured to laterally translate the or each platform screen door module and is provided with a tilt mechanism The tilt mechanism allows the support post to tilt around 20 degrees forwards and 10 degrees backwards from a plane vertical with respect to the trailer to compensate for positive and negative camber of the tracks.