Abstract: A front arrangement for a rail vehicle comprising a crash element with a forward facing crash surface, and a windshield washer device which, in turn, comprises a drive device and a front window wiper device drivable by said drive device. The crash element includes at least one impact absorbing element. The windshield washer device is fastened to the crash element for the vehicle, and is movable relative to a support of the front arrangement and thus, movable relative to the load-bearing construction of the vehicle so as to move backward during the occurrence of the impact forces and to enable absorption of the acting impact energy by the impact absorbing element.

Abstract: A front arrangement for a rail vehicle comprising a crash element with a forward facing crash surface, and a windshield washer device which, in turn, comprises a drive device and a front window wiper device drivable by said drive device. The crash element includes at least one impact absorbing element. The windshield washer device is fastened to the crash element for the vehicle, and is movable relative to a support of the front arrangement and thus, movable relative to the load-bearing construction of the vehicle so as to move backward during the occurrence of the impact forces and to enable absorption of the acting impact energy by the impact absorbing element.

Abstract: An integrated self-supporting and deformation-resistant modular driver's cabin structure for mounting to the front end of a rail vehicle body and for providing a driver space and a windshield opening, is composed of a composite sandwich structure with a single, common, continuous outer skin layer, a single, common, continuous inner skin layer and an internal structure wholly covered with and bonded to the inner and outer skin layers, the internal structure comprising a plurality of core elements. The driver's cabin structure comprises at least: side pillars each having a lower end and an upper end, and an undercarriage structure at the lower end of each of the side pillars. The fibre-reinforced sandwich located in the side pillars is provided with several layers of fibres oriented to provide a high bending stiffness. The fibre-reinforced sandwich of the undercarriage structure is such to transfer static and crash loads without flexural buckling.

Abstract: An airbag module and a rail vehicle with an airbag module are described herein. The airbag module includes a support flap with a front end and a rear end. The rear end of the support flap is thereby pivotably mounted by means of a first pivot bearing, wherein the airbag module is convertible from a closed state into an open state by pivoting the support flap and the front end of the support flap thereby moves toward the track. The airbag module includes an airbag fixed on the airbag module. The airbag is folded in the closed state of the airbag module, and is unfolded in the open state of the airbag module. In its unfolded state, the airbag projects beyond the front end of the support flap, so that the unfolded airbag and the support flap together form an impact protection for a person on the track. Furthermore, a rail vehicle with one or a plurality of airbag modules is described.

Abstract: An integrated self-supporting and deformation-resistant modular driver's cabin structure for mounting to the front end of a rail vehicle body and for providing a driver space and a windshield opening, is composed of a composite sandwich structure with a single, common, continuous outer skin layer, a single, common, continuous inner skin layer and an internal structure wholly covered with and bonded to the inner and outer skin layers, the internal structure comprising a plurality of core elements. The driver's cabin structure comprises at least: side pillars each having a lower end and an upper end, and an undercarriage structure at the lower end of each of the side pillars. The fiber-reinforced sandwich located in the side pillars is provided with several layers of fibers oriented to provide a high bending stiffness. The fiber-reinforced sandwich of the undercarriage structure is such to transfer static and crash loads without flexural buckling.