Magnetic-Measuring Square in the Measurement of the Circular Curve of Rail Transport Tracks

In rail transport, measuring the actual condition of a circular curve of a railway track is a key element of track position monitoring not only during operation but also during final works. Predicting changes in its position in the horizontal plane is one of the most important related scientific iss...

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Bibliographic Details
Published inSensors (Basel, Switzerland) Vol. 20; no. 2; p. 560
Main Author Kampczyk, Arkadiusz
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 20.01.2020
MDPI
Subjects
curve versine
Curves
difference in rails length
Geometry
Laser beams
Lasers
linear measurement procedure
magnetic-measuring square
Maintenance costs
Measurement techniques
Measuring instruments
mms
Preventive maintenance
radius of curve
rail shortenings
railway track curve
Railway tracks
Satellites
MMS
rail shortenings
curve versine
difference in rails length
railway track curve
radius of curve
Magnetic-Measuring Square
linear measurement procedure
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Summary:In rail transport, measuring the actual condition of a circular curve of a railway track is a key element of track position monitoring not only during operation but also during final works. Predicting changes in its position in the horizontal plane is one of the most important related scientific issues. This paper presents the results of measurements performed with an innovative measuring device called the Magnetic-Measuring Square (MMS). The aim of the research was to demonstrate the acceptability of using the MMS. Horizontal versines of a rail track curve were measured as three neighboring points on a curve (using the method of lacing/stringlining, also called the three-point or the Hallade method), and the perpendicularity of rail joints and shortenings were measured. The MMS device presented in this article was used to measure versines and differences in rails lengths (rail shortenings in the curve) in the operating mode involving a laser distance meter with a laser beam (laser power P < 1 mW, laser wavelength λ = 635 nm) with a target cross, a camera, and a surveying measuring disk. The measurement results confirmed that it is possible to employ the MMS to monitor the geometry of railway track fragments such as track transition curves and railway track curves in rail transport.
ISSN:1424-8220
1424-8220
DOI:10.3390/s20020560