Cargo transport systems and cargo transport vessels that are used in combination with removable carriers that can be loaded and unloaded into the cargo transport vessel, and methods of using these systems, vessels, and removable carriers.

Cargo transport systems and cargo transport vessels that are used in combination with removable carriers that can be loaded and unloaded into the cargo transport vessel, and methods of using these systems, vessels, and removable carriers.

The invention relates to a sleeper transport vehicle (1) having a loading area (25) which includes a lower supporting loading plane (7) and an upper supporting loading plane (8), wherein in each loading plane (7,8) a guide (10) is arranged in which pallets (9) are guided in the longitudinal direction of the sleeper transport vehicle (1), wherein, at a front side, a transfer area (26) is arranged into which the guides (10) protrude in order to pass along during a working operation pallets (9) with new sleepers (15) in one loading plane (7, 8) to a further sleeper transport vehicle (1) or loading/unloading vehicle (34) arranged at the front side, and to receive pallets with old sleepers (16) in the other loading plane (7, 8). In this, it is provided that in each loading plane (7, 8) a pushing device (11) for pushing the pallets (9) along the guide (10) is designed as at least one circulating chain protruding into the transfer area, and that coupling elements (20) are arranged on the pallets (9) for temporary coupling to the chain.

The invention relates to a sleeper transport vehicle (1) having a loading area (25) which includes a lower supporting loading plane (7) and an upper supporting loading plane (8), wherein in each loading plane (7,8) a guide (10) is arranged in which pallets (9) are guided in the longitudinal direction of the sleeper transport vehicle (1), wherein, at a front side, a transfer area (26) is arranged into which the guides (10) protrude in order to pass along during a working operation pallets (9) with new sleepers (15) in one loading plane (7, 8) to a further sleeper transport vehicle (1) or loading/unloading vehicle (34) arranged at the front side, and to receive pallets with old sleepers (16) in the other loading plane (7, 8). In this, it is provided that in each loading plane (7, 8) a pushing device (11) for pushing the pallets (9) along the guide (10) is designed as at least one circulating chain protruding into the transfer area, and that coupling elements (20) are arranged on the pallets (9) for temporary coupling to the chain.

An integrated mobility system includes at least one road module, at least one railway module adapted to contain a plurality of road modules therein, and a plurality of loading/unloading infrastructures arranged in a plurality of boarding and unboarding stations scattered over a territory to allow operations for boarding/unboarding the road modules from the railway module. The railway module can be a two-story high-speed railway module. The boarding/unboarding stations are equipped with the loading/unloading infrastructures arranged so that the operations for boarding/unboarding the road module with respect to the railway module are always possible regardless of the position occupied by the road module inside the railway module, and regardless of simultaneous boarding and unboarding of other road modules. The road module and the railway module are arranged to be automatically interconnected to each other in the condition in which the road module is received inside the railway module.

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.

According to some embodiments, an autorack railcar roof assembly comprises a center roof panel, a first intermediate roof panel adjacent one side of the center roof panel, and a second intermediate roof panel adjacent an opposite of the center roof panel from the first intermediate roof panel. The center roof panel comprises a first width. The first and second intermediate roof panels each comprise a second width greater than the first width.

According to some embodiments, an autorack railcar roof assembly comprises a center roof panel, a first intermediate roof panel adjacent one side of the center roof panel, and a second intermediate roof panel adjacent an opposite of the center roof panel from the first intermediate roof panel. The center roof panel comprises a first width. The first and second intermediate roof panels each comprise a second width greater than the first width.

A railway wagon for moving sleepers including: a base structure having a platform and at least one carriage, a first conveyor carried by the platform and configured to move the sleepers along a feed direction, a second conveyor distinct from the first conveyor and also carried by the platform. The second conveyor has: a first portion extended above the platform within a lateral size of the latter, and a second portion extending outside lateral size of the platform and configured to move the sleepers outside the platform.