Methods and systems are provided for a rocker assembly for a side frame pedestal of a rail vehicle truck. In one example, a system may include a rail vehicle truck that includes a pedestal rocker laterally adapted to move about an axis perpendicular to an axle of a wheelset. The pedestal rocker may be positioned between a roof of a pedestal jaw of a side frame and a bearing adapter with a convex lower surface of the pedestal rocker in face sharing contact with a concave upper surface of the bearing adapter.

A support structure of a railcar bogie and a method of supporting a railcar bogie each of which is capable of easily managing axial force acting on a fastener between a pressing member and a main body sandwiching a shaft body. In the support structure of the railcar bogie, the pressing member and the main body are fastened to each other such that a clearance is formed between the pressing member and the main body. The support structure is configured such that a car upper-lower direction end portion, located around a first recess of the main body, of the main body and a car upper-lower direction end portion of the pressing member are substantially flush with each other.

A support structure of a railcar bogie and a method of supporting a railcar bogie each of which is capable of easily managing axial force acting on a fastener between a pressing member and a main body sandwiching a shaft body. In the support structure of the railcar bogie, the pressing member and the main body are fastened to each other such that a clearance is formed between the pressing member and the main body. The support structure is configured such that a car upper-lower direction end portion, located around a first recess of the main body, of the main body and a car upper-lower direction end portion of the pressing member are substantially flush with each other.

Described herein is a load sensor for a railcar that includes one or more strain gauges and one or more temperature sensors. The load sensor has a size and configuration that allows the load sensor to be embedded in a bearing adapter under the polymer steering pad of the railcar.

Described herein is a load sensor for a railcar that includes one or more strain gauges and one or more temperature sensors. The load sensor has a size and configuration that allows the load sensor to be embedded in a bearing adapter under the polymer steering pad of the railcar.

A railcar adapter for radially connecting a railcar body to a bearing. The railcar adapter includes an adapter body, and a top cover mounted onto an outer surface of the adapter body. The top cover is provided with at least one curved outer surface to be in direct radial contact with the railcar body.

A railcar adapter for radially connecting a railcar body to a bearing. The railcar adapter includes an adapter body, and a top cover mounted onto an outer surface of the adapter body. The top cover is provided with at least one curved outer surface to be in direct radial contact with the railcar body.

A railcar adapter for radially connecting a railcar body to a bearing, and providing an adapter body. The railcar adapter includes two channel elements having each a pair of opposed lugs and a lateral guiding surface perpendicular to the opposed lugs so as to form lateral channels adapted to cooperate with the railcar body. The lateral channel elements are mounted in transverse grooves provided to transverse surfaces of the adapter body.

A railcar adapter for radially connecting a railcar body to a bearing. The railcar adapter includes two lateral channels each delimited by a pair of opposed lugs and a lateral guiding surface perpendicular to the opposed lugs, lateral channels being adapted to cooperate with the railcar body. The lateral guiding surfaces of lateral channels, in cross-section through a plane perpendicular to the axis of rotation of bearing, are curved.

An elastic bushing includes a recess at a portion of an outer peripheral surface of the elastic bushing which portion is located at an inner side in a car longitudinal direction, the recess being recessed outward in the car longitudinal direction. A tubular portion of an axle beam includes a convex stopper portion protruding outward in the car longitudinal direction from a part of an inner peripheral surface of the tubular portion which part is located at the inner side in the car longitudinal direction, the stopper portion being inserted into the recess with a gap between the stopper portion and a bottom surface of the recess. A thickness of the elastic bushing at the recess in a radial direction is equal to or less than half a thickness of a portion of the elastic bushing in the radial direction which portion is located adjacent to the recess.