A railcar coupling aid is provided to link a sequentially aligned pair of railcars having unactuated couplers so that such couplers may become engaged on a portion of rail more conducive to their actuation or so that such couplers may be serviced at a more convenient location along the rail. It may comprise a first and second length of rugged and flexible material spaced apart by a first and second crossed portion of such material. The crossed portions define a space configured to receive both of a pair of opposing coupler draw heads therethrough. When the net is draped over the opposing draw heads, each of the first and second lengths may be secured to themselves around one each of the coupler's draw shafts. Thus, each railcar may be at least temporarily linked to one another in a manner that avoids risking injury to railworker limbs.

A railcar coupling aid is provided to link a sequentially aligned pair of railcars having unactuated couplers so that such couplers may become engaged on a portion of rail more conducive to their actuation or so that such couplers may be serviced at a more convenient location along the rail. It may comprise a first and second length of rugged and flexible material spaced apart by a first and second crossed portion of such material. The crossed portions define a space configured to receive both of a pair of opposing coupler draw heads therethrough. When the net is draped over the opposing draw heads, each of the first and second lengths may be secured to themselves around one each of the coupler's draw shafts. Thus, each railcar may be at least temporarily linked to one another in a manner that avoids risking injury to railworker limbs.

A railcar yoke for a railcar energy absorption/coupling system. The yoke includes a rigid and elongated top wall joined to and axially extending from a back wall toward an open forward end of the yoke along with a rigid and elongated bottom wall joined to and axially extending from said back wall toward the open forward end of the yoke. The top and bottom walls of the yoke are separated by a distance whereby allowing an energy management system to be disposed therebetween. Each of the top and bottom walls of the yoke have two forward-facing stops thereon and which extend in opposed lateral directions from each other. The forward-facing stops on the top wall of the yoke are arranged in a generally coplanar relationship with the two forward-facing stops on the bottom wall of the yoke.

A railcar yoke for a railcar energy absorption/coupling system. The yoke includes a rigid and elongated top wall joined to and axially extending from a back wall toward an open forward end of the yoke along with a rigid and elongated bottom wall joined to and axially extending from said back wall toward the open forward end of the yoke. The top and bottom walls of the yoke are separated by a distance whereby allowing an energy management system to be disposed therebetween. Each of the top and bottom walls of the yoke have two forward-facing stops thereon and which extend in opposed lateral directions from each other. The forward-facing stops on the top wall of the yoke are arranged in a generally coplanar relationship with the two forward-facing stops on the bottom wall of the yoke.

A linkage articulatedly connects a railcar end portion of a coupling rod to a railcar body. A longitudinal axis of the coupling rod, in the neutral position, coincides with the longitudinal direction of the rail-borne vehicle. The linkage includes a base plate coupled via a bearing to the railcar body. The base plate has a through opening for the coupling rod extending therethrough. A pull/push assembly includes a first supporting element arranged between the base plate and the railcar body and a second supporting element on the side of the base plate facing away from the railcar body. First and second spring units are disposed between the base plate and corresponding ones of the supporting elements. The base plate is mounted in the bearing block to pivot in a horizontal plane transversely with respect to the longitudinal direction.

A linkage articulatedly connects a railcar end portion of a coupling rod to a railcar body. A longitudinal axis of the coupling rod, in the neutral position, coincides with the longitudinal direction of the rail-borne vehicle. The linkage includes a base plate coupled via a bearing to the railcar body. The base plate has a through opening for the coupling rod extending therethrough. A pull/push assembly includes a first supporting element arranged between the base plate and the railcar body and a second supporting element on the side of the base plate facing away from the railcar body. First and second spring units are disposed between the base plate and corresponding ones of the supporting elements. The base plate is mounted in the bearing block to pivot in a horizontal plane transversely with respect to the longitudinal direction.

System for automatic coupling and release of at least a first vehicle and of a second vehicle travelling on the railway network comprising at least a first hooking group of the first vehicle and at least a second hooking group of the second vehicle, comprising at least one vertical alignment apparatus for vertical alignment of the at least one first and at least a second hooking group, the first and at least the second hooking group being configured to be coupled and released each other by means of complementary interlocking coupling means under the control of an informatic system present on each vehicle.

System for automatic coupling and release of at least a first vehicle and of a second vehicle travelling on the railway network comprising at least a first hooking group of the first vehicle and at least a second hooking group of the second vehicle, comprising at least one vertical alignment apparatus for vertical alignment of the at least one first and at least a second hooking group, the first and at least the second hooking group being configured to be coupled and released each other by means of complementary interlocking coupling means under the control of an informatic system present on each vehicle.

A snow protection assembly is provided for a coupling region of a rail vehicle. The rail vehicle has, on an end face, a recess which protects against snow, in which recess a coupling of the rail vehicle is arranged. A fixed housing partially extends around the recess. The housing has an opening in the direction of travel of the rail vehicle, from which opening the coupling partially protrudes to enable a process of coupling to an additional rail vehicle. The opening of the fixed housing is peripherally fixedly connected to a first sealing element. A second sealing element is rotatably connected to the coupling, and the second sealing element partially extends around the coupling. The two sealing elements partially overlap in the region of the opening. The two sealing elements are coupled to one another by pressure to protect the opening against the ingress of snow.

A snow protection assembly is provided for a coupling region of a rail vehicle. The rail vehicle has, on an end face, a recess which protects against snow, in which recess a coupling of the rail vehicle is arranged. A fixed housing partially extends around the recess. The housing has an opening in the direction of travel of the rail vehicle, from which opening the coupling partially protrudes to enable a process of coupling to an additional rail vehicle. The opening of the fixed housing is peripherally fixedly connected to a first sealing element. A second sealing element is rotatably connected to the coupling, and the second sealing element partially extends around the coupling. The two sealing elements partially overlap in the region of the opening. The two sealing elements are coupled to one another by pressure to protect the opening against the ingress of snow.