The dining car (10) includes first and second side structures laid out facing each other, and a first lower floor (16), the dining car comprising a first consumption area (Z1), a second preparation area (Z2), and a third technical area (Z3). The first side face includes first supporting portions intended to support a second upper floor (20), and the first (Z1), second (Z2) and third (Z3) areas are all made on the first lower floor (16).

A method for manufacturing a railcar body includes assembling an underframe assembly, side walls, a roof and end walls made from laser cut sheet and plate components where the assemblies made from sheet components are robotically laser welded by solely using melt-through welds and where the assemblies made from plate components are robotically laser welded using solely butt welds.

A method for manufacturing a railcar body includes assembling an underframe assembly, side walls, a roof and end walls made from laser cut sheet and plate components where the assemblies made from sheet components are robotically laser welded by solely using melt-through welds and where the assemblies made from plate components are robotically laser welded using solely butt welds.

A modern scenic passenger railcar system is disclosed. The railcar system incorporates design and safety features of modern freightcars and modern passenger scenic railway cars. The railcar system incorporates a center beam with a square cross section as well as specialized crash posts with its frame. This results in enhanced safety and crashworthiness. The railcar system also incorporates cross members for absorbing and distributing shock and mechanical stress on the railcar system during use, by withstanding torsion and shear forces on the frame. This results in improved mechanical integrity of the frame and the railcar system overall.

A movable side wall and opening/closing mechanism for railroad boxcars, comprising a side wall assembly (1), an end-portion opening/closing mechanism (2), a hinged rod assembly (3), a lateral door central clamping device (4), a upper transmission shaft assembly (5), a lower transmission shaft assembly (6), a upper track assembly (7) and a lower track assembly (8); upon loading/unloading cargo, the movable side wall can be opened further, so as to allow multiple forklifts of any tonnage on the ground to load/unload cargo to/from any positions of a carriage; the hinged rod assembly (3) and the central clamping device (4) are provided to keep the movable side wall reliably closed in order to ensure security and self-locking during transportation.

A gondola railroad car partially formed using members of high strength steel, that is lighter than conventional gondola railroad cars, that can carry more weight than conventional gondola railroad cars, that is less prone to damage than conventional gondola railroad cars, and that has a longer lifespan than convention gondola railroad cars. In various such embodiments, the floor and the side walls of the gondola railroad car are partially formed from ultra-high strength steel members.

A floor section for an insulated railcar includes a floor plate and a composite section coupled to the floor plate. The composite section includes a plurality of composite beams aligned parallel to one another. Each composite beam of the plurality of composite beams includes an inner core and an outer material surrounding the inner core. The inner core includes an insulating material and is configured to support the outer material. An upper surface of each composite beam of the plurality of composite beams, which extends along a length of the composite beam, is coupled to an underside of the floor plate.

A double skin structure of a railcar bodyshell includes: a harmonica type structural portion in which a closed space is quadrangular when viewed from a car longitudinal direction; and a truss type structural portion which is located adjacent to the harmonica type structural portion and in which a closed space is triangular when viewed from the car longitudinal direction. A thickness reduced portion is formed in at least one of a region between a car width direction middle portion of a roof bodyshell and a car body circumferential direction middle portion of a cantrail. The thickness reduced portion having a bodyshell thickness that is made small by arranging an inner wall of the thickness reduced portion at a car exterior side of the inner wall of a region adjacent to the region in which the thickness reduced portion is formed.

A corner connection is provided between support elements of a cableway cabin. The corner connection has a support element (1), designed as an elongated strut having a hollow end (2), and an angled connecting element (3) having a connecting piece (4). The connecting piece (4) is insertable into the hollow end (2) of the support element (1) in a form-fitting manner. An inner shape of the hollow end (2) and an outer shape of the connecting piece (4) have an angular design. At least two oppositely situated surfaces of the hollow end (2) and the connecting piece (4) are provided in a form-fitting manner in such a way that a gap (14, 14) remains between the inner surface (10, 10) of the hollow end (2) and the outer surface (9, 9) of the connecting piece (4), wherein an adhesive material is provided in the gap (14, 14).

A body structure for a rail vehicle that includes a frame with at least one support element made at least predominantly of steel alloy, at least one equipment element made predominantly of aluminum alloy, at least one first plate having at least one longitudinal edge and a first surface delimited by the longitudinal edge, and at least one longitudinal batten of steel alloy, which is integral with the support element, wherein the longitudinal batten is fixed flat to the first face by way of friction melt bonding.