A machine-vision vehicle wheel alignment measurement system configured with at least one optical sensor to acquire images of optical targets disposed within an operative field of view. The system further includes a processing system configured with software instructions to determine relative spatial positions and orientations of one or more optical targets visible within images acquired by the optical sensor. The processing system is further configured with software instructions to automatically identify an axle count and axle configuration for a vehicle undergoing an alignment inspection or service using the determined relative spatial positions and orientations of the visible optical targets.

A vehicle wheel service system including a plurality of sensors positioned in proximity to a heavy-duty multi-axle vehicle, to measure angles associated with three or more axles of the vehicle without repositioning the mounting of the sensors after initiating a measurement procedure. Additional sensors, associated with a vehicle reference, such as the vehicle frame axis, are disposed to provide vehicle reference measurement data which is communicated to a processing system. The processing system is configured with software instructions to evaluate the measurement data and to determine various vehicle wheel alignment angle measurements and/or necessary vehicle adjustments for each axle relative to the vehicle reference or to a fixed axle having a determined relationship to the vehicle reference.

The present disclosure relates to a method determining wheel alignment parameter of a vehicle comprising a vehicle body. In particular, the method is performed by attaching a measuring arrangement to positions at a first and second longitudinally extending side portions of the vehicle body, respectively. A first and a second lateral center position are determined whereby a wheel alignment parameter in the form of a longitudinally extending centerline of the vehicle is determined.

Methods and systems for in-service inspection of freight car axles are provided. A camber angle of a wheel attached to a target axle is measured at one or more points in a revolution of the wheel. A determination of whether a defect is present in the target axle is made based on the measured camber angle at the one or more points in the revolution of the wheel. A determination that a defect is present in the target axle is made when a camber angle of the wheel at one or more points in the revolution of the wheel exceeds a threshold, and/or a determination that a defect is not present is made when no camber angle of the wheel at any point in the revolution of the wheel exceeds the predetermined threshold. An alert is generated in response to determining that a defect is present.

Methods and systems for in-service inspection of freight car axles are provided. A camber angle of a wheel attached to a target axle is measured at one or more points in a revolution of the wheel. A determination of whether a defect is present in the target axle is made based on the measured camber angle at the one or more points in the revolution of the wheel. A determination that a defect is present in the target axle is made when a camber angle of the wheel at one or more points in the revolution of the wheel exceeds a threshold, and/or a determination that a defect is not present is made when no camber angle of the wheel at any point in the revolution of the wheel exceeds the predetermined threshold. An alert is generated in response to determining that a defect is present.

An apparatus and method for aligning a rim of a wheel assembly to a wheel hub. The apparatus can include a wheel handler device that is structured to securely engage the wheel assembly. The apparatus can include one or more light emitting devices that project one or more light spots on the face of the wheel hub. The position of one or more light spots relative to another light spot(s) and/or to a reference feature on the face of the hub can provide an indication of the location, orientation, and/or alignment of at least the rim relative to the wheel hub.

A set of light-weight adaptor assemblies suitable for use with optical targets, angle sensors, or other instrumentation. A first configuration of adapter assembly within the set is easily secured against the outboard surfaces a large-diameter vehicle wheel assembly having a highly convex raised central hub region, without concern for precise axial alignment or centering, while a second configuration of adapter assembly within the set is easily secured against the outboard surfaces of a large-diameter vehicle wheel assembly having a highly concave recessed central hub region, without concern for precise axial alignment or centering.

A device and method for determining parameters for adjusting the directions of travel of two steerable axles of a vehicle relative to each other is disclosed, wherein one measuring unit for measuring the individual toe angle of a vehicle wheel associated with the measuring unit is present on each side of the vehicle such that a first measuring unit is assigned to the wheel of the first of the steerable axles on the vehicle's left side and the second measuring unit is assigned to the wheel of the second of the steerable axles on the vehicle's right side, wherein the output signals from the measuring units are supplied to an evaluating unit, wherein the difference in the directions of travel of the two steerable axles is determined in the evaluating unit from the signals supplied from the measuring units and is provided as an output signal from the evaluating unit.

A method for monitoring at least one wheel of a vehicle includes acquiring an image of the at least one wheel of the vehicle by using a camera that is secured to the vehicle; identifying at least one visual feature of the wheel on the image; detecting at least one parameter of the at least one identified feature; determining an actual position of the camera relative to the wheel; obtaining a corrected parameter on the basis of the actual position of the camera; and determining an operation state of the wheel on the basis of the corrected parameter. The present invention also relates to a system for performing the method according to the invention and to a vehicle including the system.

An apparatus and method for aligning a rim of a wheel assembly to a wheel hub. The apparatus can include a wheel handler device that is structured to securely engage the wheel assembly. The apparatus can include one or more light emitting devices that project one or more light spots on the face of the wheel hub. The position of one or more light spots relative to another light spot(s) and/or to a reference feature on the face of the hub can provide an indication of the location, orientation, and/or alignment of at least the rim relative to the wheel hub.