A device for preventing rail vehicles from riding up includes an energy absorbing element extended in longitudinal direction, having a hollow inside, a fastening side for fastening to one of the rail vehicles and an impact side facing away from the fastening side. A flange fastened to the impact side of the energy absorbing element has an impingement surface facing away from the fastening side. The flange protrudes in at least one vertical direction beyond a contour delimited by the energy absorbing element on the impact side, forming a holding web protruding beyond the energy absorbing element. The device provides effective ride-up protection for identically and differently equipped rail vehicles by equipping a free end of the holding web with at least one vertical stop extending up from the impingement surface, and providing a device for moving the vertical stop upon an impact loading in longitudinal direction.

A railroad car including a plurality of penetration resistant and protective structures including a penetration resistant and protective underframe, penetration resistant and protective first end, second end, and center bulkheads, penetration resistant and protective first, second, third, and fourth side walls, and protective first and second roof hatches, all configured to protect internal cylinder assemblies, the pipes that communicate the gas from the cylinders of the cylinder assemblies, and the safety critical valves, regulators, and other equipment connected to such cylinders and pipes of the railroad car in an accident (such as a derailment, crash and/or roll-over).

A railroad car including a plurality of penetration resistant and protective structures including a penetration resistant and protective underframe, penetration resistant and protective first end, second end, and center bulkheads, penetration resistant and protective first, second, third, and fourth side walls, and protective first and second roof hatches, all configured to protect internal cylinder assemblies, the pipes that communicate the gas from the cylinders of the cylinder assemblies, and the safety critical valves, regulators, and other equipment connected to such cylinders and pipes of the railroad car in an accident (such as a derailment, crash and/or roll-over).

A rail vehicle car for transporting passengers comprising a car body, a car body floor, a car body ceiling and a front end area. An A-pillar is disposed in the front portion. The car body has a longitudinal extent and a transverse extent, and the longitudinal extent is greater than the transverse extent. The car body includes a height extension transverse to the longitudinal and transverse extensions. The A-pillar is substantially centered in the transverse direction so that the front region is divided into a first side and a second side, and the first side comprises 30-70% of the transverse extent.

A rail vehicle car for transporting passengers comprising a car body, a car body floor, a car body ceiling and a front end area. An A-pillar is disposed in the front portion. The car body has a longitudinal extent and a transverse extent, and the longitudinal extent is greater than the transverse extent. The car body includes a height extension transverse to the longitudinal and transverse extensions. The A-pillar is substantially centered in the transverse direction so that the front region is divided into a first side and a second side, and the first side comprises 30-70% of the transverse extent.

The invention relates to a device (1) for the horizontal re-centering of a coupling shaft, particularly a central buffer coupling of a track-guided vehicle, wherein the device (1) comprises a first rotating body (3) and a second rotating body (4) which is rotatable relative to the first rotating body (3), wherein the device (1) is designed to produce the force necessary to generate a restoring torque acting on the coupling shaft by the rotating of the two rotating bodies (3, 4) relative to each other.

The invention relates to a head module for a rail vehicle, said head module being suitable to be detachably fixed to the front face of a subsequent railcar unit without additional underframe. The head module consists of an inner and an outer shell and includes three systems which convert, in the event of a crash, the collision energy into a deformation one after the other or simultaneously and substantially independently of another.

The invention relates to a head module for a rail vehicle, said head module being suitable to be detachably fixed to the front face of a subsequent railcar unit without additional underframe. The head module consists of an inner and an outer shell and includes three systems which convert, in the event of a crash, the collision energy into a deformation one after the other or simultaneously and substantially independently of another.

The application relates to a crash system for the head module of a rail vehicle, said head module being detachably fixed to the front face of a subsequent railcar unit without additional underframe. The crash system has a crash conduction element that carries a crash box at its front end and the back end of which is fixed to the underframe support of the subsequent railcar unit. In the event of a crash, crash forces are thus absorbed by the underframe of the subsequent railcar unit.

The application relates to a crash system for the head module of a rail vehicle, said head module being detachably fixed to the front face of a subsequent railcar unit without additional underframe. The crash system has a crash conduction element that carries a crash box at its front end and the back end of which is fixed to the underframe support of the subsequent railcar unit. In the event of a crash, crash forces are thus absorbed by the underframe of the subsequent railcar unit.