An improved selective travel cushioning device for a railway car is responsive to both draft and buff loads on the coupler, fitting into a standard cushioning unit pocket with little or no reconfiguration of the sill required, while limiting wear on elastic members in the cushioning unit and exhibiting high energy absorption.

An improved selective travel cushioning device for a railway car is responsive to both draft and buff loads on the coupler, fitting into a standard cushioning unit pocket with little or no reconfiguration of the sill required, while limiting wear on elastic members in the cushioning unit and exhibiting high energy absorption.

The invention relates to a bearing block assembly for hinging of a coupling rod to a carriage body. The bearing block assembly includes a bearing shell unit and a bearing block with a flange for connecting the bearing block assembly to the carriage body and has an open bearing shell receiving region for at least partial reception of the bearing shell unit. The bearing block assembly has at least one guide extending in a longitudinal direction over at least a section of the extension of the bearing block. The bearing shell unit connects to the bearing block via at least one tear-off element and/or at least one shear-off element and is movably guided on the at least one guide in a longitudinal direction relative to same when the connecting element is actuated, thereby releasing the connection between the bearing shell unit and the bearing block.

The invention relates to an energy absorbing fastener suitable for connecting a part of a coupler or pivot to a car of a multi-car vehicle, wherein a fastener having a head and an end is provided, the end being suitable to be connected to an element of the coupler or the pivot, a deformation tube surrounding the fastener, whereby the deformation tube has a first end, whereby the head of the fastener rests against the first end or rests against an element that rests against the first end, and whereby the deformation tube has a second end suitable to rest against a surface of the car or a connection plate suitable to be connected to the car.

The invention relates to the field of vehicle engineering and concerns friction shock absorbers for vehicles, primarily rolling stock. The aim of the invention is to increase the reliability and operating efficiency of a friction shock absorber. The present friction shock absorber (FIG. 3) comprises a housing (1), having a bottom (4) and a neck (2), which is formed by the walls (3) of the housing, said neck having disposed therein a return and retaining device (5) which can be compressed and which contacts with a friction assembly (7) consisting of a pressure wedge (10) and stay wedges (11) in contact therewith. In the neck (2) of the housing (1) there are arranged guide plates (12), which are in contact with the stay wedges (11) as well as with movable plates (13), the latter being in contact with the walls (3) of the housing (1) and being provided with protuberances (9), between which are disposed the guide plates (12), which are mounted on internal protuberances (20) in the housing (1). The surfaces of the guide plates (12) facing the stay wedges (11) have recesses (V) provided therealong, which encompass the return and retaining device (5).

An end-of-car system for railcars is provided comprising an asymmetric draft gear mechanism offering shock absorption to a railcar when the latter is subjected to buff or draft forces. The end-of-car system may be retrofitted to railcars having a different type of shock absorption system.

An end-of-car system for railcars is provided comprising an asymmetric draft gear mechanism offering shock absorption to a railcar when the latter is subjected to buff or draft forces. The end-of-car system may be retrofitted to railcars having a different type of shock absorption system.

An assembly that includes a housing with a chamber formed within a bore of the housing. The assembly further includes a center shaft disposed at least partially within the bore of the housing. The chamber includes a backing wedge, a sliding wedge, and a load spring. The sliding wedge is positioned to apply a force onto an angled contact surface of the backing wedge. The sliding wedge is also positioned to apply a frictional force to a rod portion of the center shaft. The load spring is compressed between a contact surface of the chamber and a contact surface of the sliding wedge. The load spring is positioned to apply a compressive force onto the contact surface of sliding wedge toward the angled contact surface of the backing wedge.

An assembly that includes a housing with a chamber formed within a bore of the housing. The assembly further includes a center shaft disposed at least partially within the bore of the housing. The chamber includes a backing wedge, a sliding wedge, and a load spring. The sliding wedge is positioned to apply a force onto an angled contact surface of the backing wedge. The sliding wedge is also positioned to apply a frictional force to a rod portion of the center shaft. The load spring is compressed between a contact surface of the chamber and a contact surface of the sliding wedge. The load spring is positioned to apply a compressive force onto the contact surface of sliding wedge toward the angled contact surface of the backing wedge.

A car coupling system for a rail vehicle includes a draft sill, and a crash energy management system disposed within the draft sill. The crash energy management system includes a first end plate, a second end plate, and a central tube disposed between the first end plate and the second end plate. The central tube is configured to deform in response to a force exerted into the car coupling system that exceeds a predetermined force threshold. Deformation of the central tube attenuates at least a portion of the force.