摘要
针对现有液压系统测试方法的不足,研究了智能化液压测试系统的理论方法和通讯技术,以系统在矿用支护设备测量领域中的应用为例,将监测目标多节点单元划分,构建了矿用支护设备测量系统。该测量方法在实际测量应用中表明系统满足预定要求,且不仅仅局限于CAN总线,具有较强的通用性。以截止阀操作力矩性能测试为例详细分析系统的测量过程,实现了数据的实时测量,验证了所研究内容的正确性。
In view of the shortcomings of the existing hydraulic system testing methods, the theoretical methods and communication technology of intelligent hydraulic testing system are studied. Taking the application of the system in the field of mine support equipment measurement as an example, the monitoring target multi-node unit is divided and the mine support equipment measurement system is constructed. This measurement method is used in the application of hydraulic support equipment that the system meets predetermined requirements, and is not limited to the CAN bus, with a strong versatility. The measurement process is analyzed in detail as the example of valve operating torque performance test. The real-time measurement data is realized, and the correctness of the research content is verified.
引文
[1]郑贤标.基于.NET技术的液压CAT系统的研发[D].浙江:浙江工业大学,2010
[2]梁海峰.基于虚拟仪器的飞机液压元件的测试系统的研究与设计[J].内江科技,2017,38(11):52-53.
[3]王宝仁,宋洪亮,桑运晓.液压数据传输与测控系统实现[J].机床与液压,2017,45(22):154-156.
[4]王瑞红,张登攀..基于无线传感器网络的可重构监测仪器设计[J].河南理工大学学报:自然科学版,2011,30(4):443-447.
[5]Zhang, Dengpan; Han, Xu; Gao, Zhiqiang. Research on hydraulic pressure detection system for mine[C].AppliedMechanicsandMaterials,2013,321-324:1477-1481.
[6]Moller L, Calazans N, Moraes F, Briao E, et al. FiPRe:An implementation model to enable selfreconfigurable applications. in. Field-Programmable Logic and Applications, Proceedings, Berlin:Springer-Verlag Berlin; 2004.
[7]李伟,常铧,贺洪江.基于CAN总线和虚拟仪器的数据采集系统[J].仪表技术与传感器. 2012(11):114-115.
[8]季宝杰,姚传安,姬少龙.基于用户数据报协议的实时网络化测控与实现[J].仪器仪表用户. 2009, 16(6):54-56.