A transverse trough coil car has a straight-through center sill. It has a pair of truck centers. It has a set of trough slope sheet assemblies mounted to the center sill between a pair of side sills. The slope sheet assemblies include intermediate slope sheet assemblies that are pin jointed connected to the center sill. The pin joint connection has a tongue and clevis form that is aligned with the webs of the center sill. The car may have stub bolsters that are surmounted by pre-fabricated trough assemblies that mate with the stub bolsters and extend to the side sills.

A transverse trough coil car has a straight-through center sill. It has a pair of truck centers. It has a set of trough slope sheet assemblies mounted to the center sill between a pair of side sills. The slope sheet assemblies include intermediate slope sheet assemblies that are pin jointed connected to the center sill. The pin joint connection has a tongue and clevis form that is aligned with the webs of the center sill. The car may have stub bolsters that are surmounted by pre-fabricated trough assemblies that mate with the stub bolsters and extend to the side sills.

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.

A railcar with a plurality of transverse bunks along the railcar body for transporting metal coils. The railcar including a longitudinally extending frame with first and second opposed ends. The railcar also includes a pair of side walls extending the longitudinal length of the railcar and secured to the frame on opposed sides of the railcar, the side walls having an interior and an exterior surface. Each transverse bunk includes at least one bottom plate and first and second canted plates secured to the end edges of the bottom plate. The transverse bunks also utilize a transverse bunk reinforcing member with longitudinally opposed end edges, the reinforcing member welded to and spanning the entire longitudinal length of the lower surface of the first and second canted plates. The longitudinally opposed end edges of the bottom plates, first and second canted plates and bunk reinforcing members are welded to the interior surfaces of the laterally opposed sidewalls.

An Urban Intermodal Freight System is capable of transporting large volumes and tonnage of freight by containerized or other means on a mass transit rail system. It captures excess capacity in the existing mass transit rail infrastructure to move packages, parcels, and freight by using miniaturized intermodal cargo containers that are designed to integrate seamlessly with the existing transit infrastructure, while displacing delivery trucks from increasingly crowded city streets. By enabling inbound trucks to transfer their cargo to the Urban Intermodal Freight System at a city's outskirts, freight is delivered without trucks entering congested downtown areas, greatly alleviating traffic congestion, delays, greenhouse gas emissions and other negative environmental impacts. The Linear Loading Dock and Conveyor System may have other useful applications, for example to access a facility, building or vehicle, or in other circumstances where off street truck parking or loading docks are not available.

An apparatus, a vehicle and a method for securing intermodal cargo containers is provided. Couplers include pins and bottom supports to engage apertures and bottom surfaces of corner fittings for intermodal cargo containers. The couplers may also include sidewall supports to engage forward facing side surfaces of the corner fittings. The pins, bottom supports, and sidewall supports hold an intermodal cargo container in place through a relatively large range of acceleration forces without damaging the corner fittings of the intermodal cargo containers. The couplers are selectively movable from a retracted position to an extended position to engage the corner fittings of the intermodal cargo containers.

An apparatus, a vehicle and a method for securing intermodal cargo containers is provided. Couplers include pins and bottom supports to engage apertures and bottom surfaces of corner fittings for intermodal cargo containers. The couplers may also include sidewall supports to engage forward facing side surfaces of the corner fittings. The pins, bottom supports, and sidewall supports hold an intermodal cargo container in place through a relatively large range of acceleration forces without damaging the corner fittings of the intermodal cargo containers. The couplers are selectively movable from a retracted position to an extended position to engage the corner fittings of the intermodal cargo containers.

A transverse trough coil car has a sawtooth center sill. It has a pair of truck centers. Portions of the straight-through center sill deviate upwardly inboard of the truck centers and define saw teeth that have truncated tips. The center sill has an undulating top cover plate, or top flange. A portion of the center sill deviates slopingly to conform angularly to the inclined sides of the transverse troughs. The center sill is notched to conform to those transverse troughs. The car has stub bolsters that are surmounted by pre-fabricated trough assemblies that mate with the stub bolsters and extend to the side sills. The center sill has an array of internal web separators and gussets to discourage buckling. There are deep center sill webs that extend upwardly higher than the draft sill.

A transverse trough coil car has a sawtooth center sill. It has a pair of truck centers. Portions of the straight-through center sill deviate upwardly inboard of the truck centers and define saw teeth that have truncated tips. The center sill has an undulating top cover plate, or top flange. A portion of the center sill deviates slopingly to conform angularly to the inclined sides of the transverse troughs. The center sill is notched to conform to those transverse troughs. The car has stub bolsters that are surmounted by pre-fabricated trough assemblies that mate with the stub bolsters and extend to the side sills. The center sill has an array of internal web separators and gussets to discourage buckling. There are deep center sill webs that extend upwardly higher than the draft sill.