IMPROVEMENT OF THE REALIGNMENT PERFORMANCE FOR SHORT WAVELENGTH TRACK IRREGULARITY ON A TAMPING MACHINE

WIT transactions on engineering sciences Pub Date : 2017-07-04 DOI:10.2495/CMEM170071

T. Yada, Y. Soda, Y. Naganuma

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Abstract

ABSTRACT Track maintenance work is essential to maintaining the safe and stable operation of a railway system. In recent years, the realignment of track irregularity with wavelengths of approximately 5 m is required in order to reduce the Q-force and the track irregularity growth on the Tokaido Shinkansen. Tamping machines are generally used to realign track irregularities. But, the newest Type-09 tamping machine has a lower realignment performance for track irregularities of around 5 m in wavelength due to its capabilities when it comes to measuring chord length. Therefore, a new measuring system has been attached in the tamping machine in order to measure 3.6 m versine at the longitudinal level. Since a high-precision gyroscope is used, the measuring system is not influenced by the vibration of the tamping machine when in operation. Through repeatability testing it was confirmed that short wavelength track irregularities could be measured with high accuracy. The data measured by Dr Yellow (a track inspection car) was combined with the data taken from the gyroscope to propose a new algorithm for correcting 5 m chord versine track irregularities with better accuracy. Maintenance tests will be conducted to verify the results.

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夯实机短波轨道不平顺调整性能的改进

轨道养护工作是维护铁路系统安全稳定运行的关键。近年来，为了减少东海道新干线上的q力和轨道不平顺的增长，需要对波长约为5 m的轨道不平顺进行重新调整。夯实机一般用于调整轨道的凹凸不平。但是，最新的09型夯实机由于其测量弦长的能力，对于波长在5米左右的轨道不规则性，其调整性能较低。因此，在捣固机上安装了一个新的测量系统，以便在纵向水平上测量3.6 m版本。由于采用高精度陀螺仪，测量系统在运行时不受捣固机振动的影响。通过重复性测试，证实了短波径迹不规则度的测量精度较高。“黄博士”(一辆轨道检查车)测量的数据与陀螺仪采集的数据相结合，提出了一种新的算法，以更高的精度纠正5米弦反轨道不规则性。将进行维护测试以验证结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

WIT transactions on engineering sciences

CiteScore

1.20

自引率

0.00%

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