Wayside Measurement of Railcar Wheel to Rail Geometry
First Claim
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1. A system for evaluating a railcar wheelset for rail alignment, the system comprising:
- a plurality of structured light measuring devices configured to measure a set of features of opposing wheels on the railcar wheelset as the wheels travel along a rail, a structured light measuring device including;
a set of laser line projectors configured to illuminate a portion of a wheel rim surface of a wheel and a portion of a rail head surface of the rail with a sheet of light having an orientation which is substantially vertical and orthogonal to the rail; and
a high speed camera configured to acquire image data of the laser light scattered by the wheel and rail;
means for automatically determining when to acquire the image data using at least one of the plurality of structured light measuring devices and automatically activating the at least one of the plurality of structured light measuring devices; and
a computer system configured to process the image data by performing a method comprising;
forming Cartesian coordinates of a plurality of image data points on the wheel rim surface and the rail head surface; and
converting the Cartesian coordinates into a plurality of wheel alignment measures, wherein the plurality of wheel alignment measures include an angle of attack and a tracking position.
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Abstract
Considerable damage to rails, wheels, and trucks can result from geometric anomalies in the wheelsets, rails, and truck hardware. A solution for identifying and quantifying geometric anomalies known to influence the service life of the rolling stock or the ride comfort for the case of passenger service is described. The solution comprises an optical system, which can be configured to accurately perform measurements at mainline speeds (e.g., greater than 100 mph). The optical system includes laser line projectors and imaging cameras and can utilize structured light triangulation.
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Citations
20 Claims
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1. A system for evaluating a railcar wheelset for rail alignment, the system comprising:
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a plurality of structured light measuring devices configured to measure a set of features of opposing wheels on the railcar wheelset as the wheels travel along a rail, a structured light measuring device including; a set of laser line projectors configured to illuminate a portion of a wheel rim surface of a wheel and a portion of a rail head surface of the rail with a sheet of light having an orientation which is substantially vertical and orthogonal to the rail; and a high speed camera configured to acquire image data of the laser light scattered by the wheel and rail; means for automatically determining when to acquire the image data using at least one of the plurality of structured light measuring devices and automatically activating the at least one of the plurality of structured light measuring devices; and a computer system configured to process the image data by performing a method comprising; forming Cartesian coordinates of a plurality of image data points on the wheel rim surface and the rail head surface; and converting the Cartesian coordinates into a plurality of wheel alignment measures, wherein the plurality of wheel alignment measures include an angle of attack and a tracking position. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for evaluating a railcar wheelset for rail alignment, the method comprising:
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projecting a plurality of laser lines substantially vertical and orthogonal with respect to a plurality of rails, wherein the projecting is configured such that each of the plurality of laser lines illuminates a portion of a rim surface of a railroad wheel of the railcar wheelset as the wheelset travels along the plurality of rails and a portion of a corresponding rail of the plurality of rails, and wherein at least two laser lines illuminate at least two distinct portions of the rim surface of each of the plurality of railroad wheels of the railcar wheelset; acquiring image data for the plurality of railcar wheels during the projecting; processing the image data to at least one of;
reduce noise in the image data or remove outlier points from the image data;for each of the plurality of railroad wheels; deriving three dimensional space coordinates of a plurality of image data points corresponding to the at least two distinct portions illuminated by the laser lines using the processed image data; fitting a plane to the three dimensional space coordinates; comparing an alignment of the fitted plane with a plane of the corresponding rail; and determining whether the alignment of the fitted plane is within an acceptable variation parameters for wheel alignment with the rail; and determining whether any of a set of wheelset alignment conditions is present based on the wheel alignment for each of the plurality of wheels of the wheelset. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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16. A system comprising:
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an imaging component located adjacent to a location of a pair of rails, wherein the imaging component includes a plurality of structured light measuring devices configured to concurrently acquire image data for opposing wheels on a railcar wheelset as the wheels travel along the pair of rails, a structured light measuring device including; a set of laser line projectors configured to illuminate at least two distinct portions of a wheel rim surface of a wheel and a corresponding at least two distinct portions of a rail head surface of the rail with a sheet of light having an orientation which is substantially vertical and orthogonal to the rail; and a camera configured to acquire image data of the laser light scattered by the wheel and rail from both of the at least two distinct portions; and a computer system configured to process the image data by performing a method comprising; for each of the opposing wheels; deriving three dimensional space coordinates of a plurality of image data points corresponding to the at least two distinct portions illuminated by the laser lines from the image data; and fitting a plane to the three dimensional space coordinates; and calculating a plurality of wheel alignment measures for the railcar wheelset, the wheel alignment measures including an angle of attack and a tracking position. - View Dependent Claims (17, 18, 19, 20)
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Specification