An articulated rail-transport car for transporting long sections of ribbon rail is described. The car includes a plurality of segments arranged end-to-end and coupled and supported at their adjacent ends by shared trucks. Dedicated trucks are provided near each terminal end of the car and couplers configured to couple to an adjacent rail car are provided at the respective terminal ends. Rail stands are disposed along the length of the car with a spacing that is independent of the locations of the shared and dedicated trucks and that provides a greater number of rail stands than trucks. The segments may be configured to enable interchangeability and to allow any number of the segments to be included in the car. A plurality of the cars can be coupled to enable transport of ribbon rails of any length.

An articulated rail-transport car for transporting long sections of ribbon rail is described. The car includes a plurality of segments arranged end-to-end and coupled and supported at their adjacent ends by shared trucks. Dedicated trucks are provided near each terminal end of the car and couplers configured to couple to an adjacent rail car are provided at the respective terminal ends. Rail stands are disposed along the length of the car with a spacing that is independent of the locations of the shared and dedicated trucks and that provides a greater number of rail stands than trucks. The segments may be configured to enable interchangeability and to allow any number of the segments to be included in the car. A plurality of the cars can be coupled to enable transport of ribbon rails of any length.

The invention relates to an articulated coupling comprising at least one tension-transferring or compression-transferring rod, at least one pressure plate comprising a cutting tool that comprises at least one blade and a central conically shaped recess. Furthermore, the articulated coupling comprises at least one conical threaded ring which comprises an internal thread and is slit in a longitudinal direction, wherein the rod comprises an external thread onto which the conical threaded ring is screwed. The cutting tool is arranged on a conical external surface of the conical threaded ring, wherein the conical threaded ring is arranged at least partially in the conically shaped recess.

The invention relates to an articulated coupling comprising at least one tension-transferring or compression-transferring rod, at least one pressure plate comprising a cutting tool that comprises at least one blade and a central conically shaped recess. Furthermore, the articulated coupling comprises at least one conical threaded ring which comprises an internal thread and is slit in a longitudinal direction, wherein the rod comprises an external thread onto which the conical threaded ring is screwed. The cutting tool is arranged on a conical external surface of the conical threaded ring, wherein the conical threaded ring is arranged at least partially in the conically shaped recess.

Joint arrangement (10) for a truck comprising at least one deformation element (12.1, 12.2), wherein the deformation element comprises at least one rod (14.1, 14.2) and a connection plate (16.1, 16.2), wherein the connection plate is arranged on the rod, wherein the rod has at least one stop element. The connection plate can be displaced on the rod in the longitudinal direction of said rod, wherein a deformation work can be performed on the deformation element in the event of a displacement of the connection plate on the rod; and wherein a displacement path of the connection plate on the rod is limited by the stop element (24.1, 24.2). Further a method for energy conversion is proposed.

A symmetrical multi-unit railroad freight car, such as a 3-pack railroad intermodal well car, has body units that are connected symmetrically. The body units have a symmetrical arrangement of end trucks and shared trucks. The end trucks are 70 Ton Trucks. The shared trucks are 125 Ton trucks. The trucks have passive steering using geometric rocker stiffnesses. The rockers in the end trucks have a smaller radius of curvature than the rockers in the shared trucks. The spring groups in the shared trucks are stiffer than the spring groups in the end trucks. The spring groups in the end trucks have a different proportion of damping when empty, a shorter live load range of travel, and greater reserve travel than the shared trucks. The end trucks and the shared trucks have four-cornered damper groups that have the same sized damper wedges. The damper wedges have non-metallic wear pads.

A symmetrical multi-unit railroad freight car, such as a 3-pack railroad intermodal well car, has body units that are connected symmetrically. The body units have a symmetrical arrangement of end trucks and shared trucks. The end trucks are 70 Ton Trucks. The shared trucks are 125 Ton trucks. The trucks have passive steering using geometric rocker stiffnesses. The rockers in the end trucks have a smaller radius of curvature than the rockers in the shared trucks. The spring groups in the shared trucks are stiffer than the spring groups in the end trucks. The spring groups in the end trucks have a different proportion of damping when empty, a shorter live load range of travel, and greater reserve travel than the shared trucks. The end trucks and the shared trucks have four-cornered damper groups that have the same sized damper wedges. The damper wedges have non-metallic wear pads.

According to some embodiments, a railcar comprises a first well component supported by a first railcar truck and a second railcar truck. The first well component is disposed between the first railcar truck and the second railcar truck. The length of the first well component is restricted to transport an intermodal shipping container no longer than twenty feet in length. In particular embodiments, the first well component is configured to transport a double stack of twenty-foot intermodal shipping containers. Each twenty-foot shipping container of the double stack may be loaded to maximum weight of 67,000 pounds. Particular embodiments include an articulated railcar with two or more twenty-foot well components.

The railway vehicle comprises at least one end car, each arranged at a respective end of the railway vehicle, and, for each end car, a first car adjacent to this end car, and at least one second car, one of which is adjacent to the first car. Each second car comprises a second structural body. Each first car comprises a first structural body substantially identical to the second structural body of each second car, and a structural extension part attached on the first structural body and intended to be connected to the adjacent end car.

The railway vehicle comprises at least one end car, each arranged at a respective end of the railway vehicle, and, for each end car, a first car adjacent to this end car, and at least one second car, one of which is adjacent to the first car. Each second car comprises a second structural body. Each first car comprises a first structural body substantially identical to the second structural body of each second car, and a structural extension part attached on the first structural body and intended to be connected to the adjacent end car.