重载铁路线路综合检测车设计

doi:10.16265/j.cnki.issn1003-3033.2026.01.0430

中国安全科学学报 ›› 2026, Vol. 36 ›› Issue (1): 57-62.doi: 10.16265/j.cnki.issn1003-3033.2026.01.0430

重载铁路线路综合检测车设计

曹源¹(), 李健¹, 孙永奎¹^,^**(), 宿帅¹, 杨卫峰², 王文昆²

¹ 北京交通大学自动化与智能学院,北京 100044
² 株洲时代电子技术有限公司,湖南株洲 412007

收稿日期:2025-07-10 修回日期:2025-11-10 出版日期:2026-01-28
通信作者:
** 孙永奎(1993—),男,河南永城人,博士,副教授,主要从事铁路系统故障诊断与运维方面的研究。E-mail: sunyk@bjtu.edu.cn。
作者简介:
曹源 (1982—),男,河南开封人,博士,教授,主要从事铁路系统运维方面的研究。E-mail: ycao@bjtu.edu.cn。
宿帅, 教授。
杨卫峰, 正高级工程师。
王文昆, 高级工程师。
基金资助:
国家重点研发计划项目(2021YFF0501100); 国家自然科学基金(U2368202); 国家自然科学基金(52202392); 国家自然科学基金(U1934219); 国家自然科学基金(52372308); 国家自然科学基金(U2468203)

Design of a comprehensive inspection vehicle for heavy-haul railway line

CAO Yuan¹(), LI Jian¹, SUN Yongkui¹^,^**(), SU Shuai¹, YANG Weifeng², WANG Wenkun²

¹ School of Automation and Intelligence, Beijing Jiaotong University, Beijing 100044, China
² Zhuzhou CRRC Times Electric Co., Ltd., Zhuzhou Hunan 412007, China

Received:2025-07-10 Revised:2025-11-10 Published:2026-01-28

摘要/Abstract

摘要：

为精确辨识与评估重载铁路线路服役状态,设计并研制重载铁路线路综合检测车,集成包括轨道状态巡检、钢轨轮廓检测、轨道几何参数检测、钢轨探伤检测、轮轨力检测、振动检测6大检测系统;通过定位同步系统同步检测和关联分析线路多源状态数据,并分级报警可疑病害。结果表明:重载铁路线路综合检测车自2023年7月下线投入运行以来,依托最高80 km/h的运行能力,采集线路几何参数、表面巡检图像、内部B型图、轮轨力和振动等多源数据,建立典型病害库;结合定位同步系统与多源数据时空映射模型,自动对齐与关联分析检测数据,准确溯源线路病害成因、降低误报率和漏报率;构建的可疑病害分级报警机制依据超限等级实施限速、上报和记录等差异化处置,在确保行车安全的同时提升重载铁路线路养护与列车运行效率。

关键词: 重载铁路, 综合检测车, 轨道状态巡检系统, 定位同步系统, 线路病害

Abstract:

To achieve accurate identification and evaluation of the service state of heavy-haul railway lines, a heavy-haul railway line comprehensive inspection vehicle was designed and developed, integrating six major inspection systems: a track condition inspection system, a rail profile measurement system, a track geometry measurement system, a rail flaw detection system, a wheel-rail force measurement system, and a vibration measurement system. A positioning and synchronization system is employed to enable synchronized acquisition and correlation analysis of multi-source line-condition data, and to provide graded alarms for suspected defects. The results show that, since its commissioning in July 2023, the heavy-haul railway line comprehensive inspection vehicle, operating at speeds up to 80 km/h, has continuously collected multi-source data including track geometry parameters, surface inspection images, internal B-scan images, wheel-rail forces, and vibration signals, and has established a database of typical defects. By combining the positioning and synchronization system with a multi-source spatiotemporal mapping model, the system realizes automatic alignment and correlation analysis of inspection data, enabling accurate tracing of defect causes and reducing both false positives and missed detections. Furthermore, the proposed graded alarm mechanism for suspected defects supports differentiated responses such as speed restriction, reporting, and record-keeping according to exceedance levels, thereby ensuring train operation safety while improving both heavy-haul railway maintenance efficiency and train operation efficiency.

Key words: heavy-haul railway, comprehensive inspection vehicle, track status inspection system, positioning synchronization system, track defect

中图分类号:

X924.4安全控制技术

曹源, 李健, 孙永奎, 宿帅, 杨卫峰, 王文昆. 重载铁路线路综合检测车设计[J]. 中国安全科学学报, 2026, 36(1): 57-62.

CAO Yuan, LI Jian, SUN Yongkui, SU Shuai, YANG Weifeng, WANG Wenkun. Design of a comprehensive inspection vehicle for heavy-haul railway line[J]. China Safety Science Journal, 2026, 36(1): 57-62.

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参考文献 16

[1]	吕军, 项涛, 宋宗莹, 等. 群组列车前后车间距对重载列车气动特性影响[J]. 机车电传动, 2024(5): 75-81.
	LYU Jun, XIANG Tao, SONG Zongying, et al. Impacts of inter-train distances on aerodynamic drag reductionin heavy-haul train groups[J]. Electric Drive for Locomotives, 2024(5): 75-81.
[2]	张哲, 赵开功, 郑昀, 等. 基于重载机车乘务员的职业安全健康心理分析[J]. 中国安全科学学报, 2024, 34(增1): 21-26.
	ZHANG Zhe, ZHAO Kaigong, ZHENG Yun, et al. Occupational safety and psychological health analysis of heavy-haul locomotive crew[J]. China Safety Science Journal, 2024, 34(S1): 21-26. doi: 10.16265/j.cnki.issn1003-3033.2024.S1.0021
[3]	张文山. 重载铁路企业安全生产标准化评价体系的研究与应用[J]. 中国安全科学学报, 2024, 34(增1): 46-51.
	ZHANG Wenshan. Research and application of safety production standardization evaluation system for heavy-haul railway enterprises[J]. China Safety Science Journal, 2024, 34(S1): 46-51. doi: 10.16265/j.cnki.issn1003-3033.2024.S1.0175
[4]	温登钦, 王飞, 时瑾, 等. 重载铁路长大下坡曲线段列车行车安全性分析[J]. 中国安全科学学报, 2022, 32(6): 87-94. doi: 10.16265/j.cnki.issn1003-3033.2022.06.1896
	WEN Dengqin, WANG Fei, SHI Jin, REN Shujing. Safety analysis of train operation in long downhill curve sections of heavy haul railways[J]. China Safety Science Journal, 2022, 32(6): 87-94. doi: 10.16265/j.cnki.issn1003-3033.2022.06.1896
[5]	曾周, 胡晓宇, 冉祥瑞, 等. 2万t重载列车车辆数量对纵向冲动的影响研究[J]. 机车电传动, 2024(1): 22-30.
	ZENG Zhou, HU Xiaoyu, RAN Xiangrui, et al. Research on the influence of quantity of 20000-ton heavy-haul train wagons on longitudinal impulse[J]. Electric Drive for Locomotives, 2024(1): 22-30.
[6]	刘震锋, 陈建政, 李伟. 基于线结构光的钢轨断面磨耗改进检测算法[J]. 机车电传动, 2024(3): 138-145.
	LIU Zhenfeng, CHEN Jianzheng, LI Wei. Improved detection algorithm for rail profile wear based on line structured light[J]. Electric Drive for Locomotives, 2024(3): 138-145.
[7]	贾晋中, 陆生, 彭丽宇. 朔黄铁路重载综合检测车[M]. 北京: 中国铁道出版社, 2016: 4-11.
[8]	BAILLARGEON J, STUART C. Machine vision data products for the automated track inspection program[R]. United States: Federal Railroad Administration, 2021.
[9]	DEBATTISTI N, TARSITANO D, VIGNATI M. On the design and development of an unmanned railway vehicle for high-speed railway-line surveillance[J]. International Journal of Rail Transportation, 2025(13): 1-26.
[10]	侯卫星, 刘刚, 康熊. 0号高速综合检测列车[M]. 北京: 中国铁道出版社, 2010:19-63.
[11]	陈春雷. CRH380AM-0204高速综合检测列车设备研制[J]. 中国铁路, 2017(10):69-76.
	CHEN Chunlei. Study on development of CRH380AM-0204 high speed comprehensive inspection train[J]. China Railway, 2017(10):69-76.
[12]	曹广河. 朔黄铁路综合检测车系统研制[C]. 中国铁道学会铁路重载运输技术交流会, 2014:484-488.
[13]	彭丽宇, 陶凯, 黎国清. 重载铁路综合检测列车和数据综合分析系统[J]. 铁道建筑, 2016(12):109-113.
	PENG Liyu, TAO Kai, LI Guoqing. Comprehensive inspection train and data comprehensive analysis system of heavy haul railway[J]. Railway Engineering, 2016(12):109-113.
[14]	王贵鑫. 重载铁路综合检测列车和数据综合分析系统研究[J]. 运输经理世界, 2022(22):71-73.
[15]	李颖, 王昊, 侯智雄, 等. 基于控制器局域网总线的车载轨道检测系统设计研制[J]. 中国铁道科学, 2020, 41(4): 163-170.
	LI Ying, WANG Hao, HOU Zhixiong, et al. Design and development of on-board track inspection system based on CAN bus[J]. China Railway Science, 2020, 41(4): 163-170.
[16]	张向阳, 张高峰. GTC-80型钢轨探伤车[J]. 机车电传动, 2013(6):94-96.
	ZHANG Xiangyang, ZHANG Gaofeng. GTC-80 Rail flaw detection car[J]. Electric Drive for Locomotives, 2013(6):94-96.

重载铁路线路综合检测车设计

Design of a comprehensive inspection vehicle for heavy-haul railway line

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