A knuckle of a coupler of a rail vehicle includes a main body including a recess formed in one or more surfaces. One or more weld fillers are disposed within the recess. A method of forming a knuckle of a coupler of a rail vehicle includes forming a recess in one or more surfaces of a main body, and disposing one or more weld fillers within the recess.

A knuckle of a coupler of a rail vehicle includes a main body including a recess formed in one or more surfaces. One or more weld fillers are disposed within the recess. A method of forming a knuckle of a coupler of a rail vehicle includes forming a recess in one or more surfaces of a main body, and disposing one or more weld fillers within the recess.

A vehicle coupling assembly includes a bearing bracket, a rod, a pin and an abutment element. The bearing bracket includes compressible elements, a connection member intermediate the compressible elements, and a rear plate rearward of the connection member. The rod has an end wall, a first side of which is adjacent to one of the compressible elements. The pin extends through the compressible elements, a connection member hole defined in the bearing bracket, and an end wall hole of the rod. A pin support surface at a first pin end faces a first side of the connection member, one of the compressible elements being between the pin support surface and the second side of the connection member. The abutment element is at a second pin end, and abuts a second side of the end wall of the rod.

A vehicle coupling assembly includes a bearing bracket, a rod, a pin and an abutment element. The bearing bracket includes compressible elements, a connection member intermediate the compressible elements, and a rear plate rearward of the connection member. The rod has an end wall, a first side of which is adjacent to one of the compressible elements. The pin extends through the compressible elements, a connection member hole defined in the bearing bracket, and an end wall hole of the rod. A pin support surface at a first pin end faces a first side of the connection member, one of the compressible elements being between the pin support surface and the second side of the connection member. The abutment element is at a second pin end, and abuts a second side of the end wall of the rod.

A vehicle coupling assembly includes a bearing bracket, a rod, a pin and an abutment element. The bearing bracket includes compressible elements, a connection member intermediate the compressible elements, and a rear plate rearward of the connection member. The rod has an end wall, a first side of which is adjacent to one of the compressible elements. The pin extends through the compressible elements, a connection member hole defined in the bearing bracket, and an end wall hole of the rod. A pin support surface at a first pin end faces a first side of the connection member, one of the compressible elements being between the pin support surface and the second side of the connection member. The abutment element is at a second pin end, and abuts a second side of the end wall of the rod.

A vehicle coupling assembly includes a bearing bracket, a rod, a pin and an abutment element. The bearing bracket includes compressible elements, a connection member intermediate the compressible elements, and a rear plate rearward of the connection member. The rod has an end wall, a first side of which is adjacent to one of the compressible elements. The pin extends through the compressible elements, a connection member hole defined in the bearing bracket, and an end wall hole of the rod. A pin support surface at a first pin end faces a first side of the connection member, one of the compressible elements being between the pin support surface and the second side of the connection member. The abutment element is at a second pin end, and abuts a second side of the end wall of the rod.

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.

A system includes a bearing bracket, for connecting a coupler rod or a connection rod to a car, and a coupler rod or a connection rod connected to the bearing bracket. The bearing bracket has an adapter and a joint that allows the adapter to swivel relative to the bracket. The rod has a stabilizing element having a surface that is not parallel to the longitudinal axis of the rod and is spaced apart from a surface of the bearing bracket. Upon application of a force of a predetermined first strength in one direction, the adapter moves relative to the bracket in the one direction until the surface of the stabilizing element contacts the surface of the bearing bracket. Upon application of a force of a second strength to the rod, the stabilizing element detaches from the rod, so that the rod can move relative to the stabilizing element.

A system includes a bearing bracket, for connecting a coupler rod or a connection rod to a car, and a coupler rod or a connection rod connected to the bearing bracket. The bearing bracket has an adapter and a joint that allows the adapter to swivel relative to the bracket. The rod has a stabilizing element having a surface that is not parallel to the longitudinal axis of the rod and is spaced apart from a surface of the bearing bracket. Upon application of a force of a predetermined first strength in one direction, the adapter moves relative to the bracket in the one direction until the surface of the stabilizing element contacts the surface of the bearing bracket. Upon application of a force of a second strength to the rod, the stabilizing element detaches from the rod, so that the rod can move relative to the stabilizing element.