A rail vehicle, in particular a locomotive, includes a railcar body having a head end provided with a front nose. The railcar body has an interface, in the region of the head end, which is configured and provided for fastening and connecting differently shaped front noses forming a set of variations. A front nose selected from the set of variations is thereby fastened to the interface by a welded connection. The rail vehicle therefore permits more flexibility in the shaping of the head end of the railcar body.

A rail vehicle, in particular a locomotive, includes a railcar body having a head end provided with a front nose. The railcar body has an interface, in the region of the head end, which is configured and provided for fastening and connecting differently shaped front noses forming a set of variations. A front nose selected from the set of variations is thereby fastened to the interface by a welded connection. The rail vehicle therefore permits more flexibility in the shaping of the head end of the railcar body.

A railway traction vehicle, in particular a locomotive, is provided for pulling at least one coupleable railway car, which may be a two-level car, having a car body with a car roof which defines a car height. The locomotive includes a vehicle body with a vehicle roof which defines a vehicle height. If the vehicle height is lower than the car height, a roof transition element is disposed on a rear-side end region of the vehicle body. Since the cross-sectional profile of the roof transition element expands from the front edge, which follows a contour line of the vehicle roof, to the rear edge, which follows a contour line of the car roof, the flow resistance in the transition region from the locomotive to the subsequent two-level car is reduced in a simple way, so that traction energy losses and vehicle noise can be reduced.

A railway traction vehicle, in particular a locomotive, is provided for pulling at least one coupleable railway car, which may be a two-level car, having a car body with a car roof which defines a car height. The locomotive includes a vehicle body with a vehicle roof which defines a vehicle height. If the vehicle height is lower than the car height, a roof transition element is disposed on a rear-side end region of the vehicle body. Since the cross-sectional profile of the roof transition element expands from the front edge, which follows a contour line of the vehicle roof, to the rear edge, which follows a contour line of the car roof, the flow resistance in the transition region from the locomotive to the subsequent two-level car is reduced in a simple way, so that traction energy losses and vehicle noise can be reduced.

A rail vehicle has a bogie, which is covered in such a way that a bogie cavity exists, which is formed in the under floor region of the rail vehicle by a cover assembly and walls adjacent to the bogie. A device for producing pressurized air is connected, with respect to flow, to an air inlet device in the walls of the bogie cavity in such a way that the air can be blown into the bogie cavity.

A rail vehicle has a bogie, which is covered in such a way that a bogie cavity exists, which is formed in the under floor region of the rail vehicle by a cover assembly and walls adjacent to the bogie. A device for producing pressurized air is connected, with respect to flow, to an air inlet device in the walls of the bogie cavity in such a way that the air can be blown into the bogie cavity.

A fairing for arrangement between two vehicle parts, in particular of a rail vehicle, movably connected to one another, having at least one fairing element that is arranged at a respective vehicle part, that is elastically deformable, and that has a U-shaped or arcuate cross-section. The fairing also has at least one stabilization body that extends at least sectionally into the fairing element and extends from at least one front face of the fairing element.

A vehicle, such as a rail vehicle, has an electrodynamic braking apparatus with at least one brake resistor. The at least one brake resistor forms a portion of the vehicle body shell that is permanently closed and over which air flows on the exterior, in particular, during travel of the vehicle. In the alternative, the brake resistor is arranged in the immediate vicinity of the permanently closed portion. The brake resistor conducts away heat outwardly to the environment via the permanently closed portion. There is also described a brake resistor for a vehicle, in particular for a rail vehicle, which is configured accordingly.

A vehicle, such as a rail vehicle, has an electrodynamic braking apparatus with at least one brake resistor. The at least one brake resistor forms a portion of the vehicle body shell that is permanently closed and over which air flows on the exterior, in particular, during travel of the vehicle. In the alternative, the brake resistor is arranged in the immediate vicinity of the permanently closed portion. The brake resistor conducts away heat outwardly to the environment via the permanently closed portion. There is also described a brake resistor for a vehicle, in particular for a rail vehicle, which is configured accordingly.

A vehicle which is intended to travel along a downward sloping cable, which is suspended between two supports having a change in elevation. Preferably, the vehicle includes a fuselage, a trolley assembly, a translation system, a seat, a counterweight system, and at least one wing. The trolley assembly is attached to the cable. This connection allows the vehicle to travel along the cable. A counterweight system is included in order to balance the weight of the rider sitting in the seat below the fuselage. This allows the vehicle to easily rotate, via rotary joint, around the cable while traveling along the line. Preferably, the rider can induce roll by either activating ailerons or by rotating one of the wings about the lateral axis in order to increase the lift on one side of the aircraft depending on whether the wings are fixed.