交流电机驱动机电混合模拟制动器惯性台架的研制

工程设计学报

2011, Vol. 18

Issue (4): 293-297

机电一体化和智能化系统设计理论、方法与技术

交流电机驱动机电混合模拟制动器惯性台架的研制

邢记龙¹, 周志刚^1,2, 李云鹏¹, 王铁山^1,2

1.吉林大学生物与农业工程学院，吉林长春 130025；2.吉林大学机电设备研究所,吉林长春 130117

Design of the Ac motor drive electromechanical hybrid simulation brake inertia bench

XING Ji-Long¹, ZHOU Zhi-Gang^1,2, LI Yun-Peng¹, WANG Tie-Shan^1,2

1. School of Biology and Agricultural Engineering, Jilin University, Changchun 130025, China；
2. Institute of Electrical and Mechanical Equipment, Jilin University, Changchun 130117, China

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摘要： 目前制动器惯性台架大都采用直流电机驱动和纯机械模拟的方法,该方法存在反应速度慢、惯量调整困难、模拟精度低等缺点.为此，基于机械模拟和电模拟相结合的方法,采用交流电机驱动和矢量变频调速技术,设计出一台能够实现反应速度快、惯量无级调整的汽车制动器惯性台架.详细介绍了该台架的基本原理、总体结构、技术参数以及交流电机的选择.最后,通过设计出的台架进行了实测验证,结果证明该台架惯量误差远小于汽车制动器性能台架试验标准中规定的误差,极大提高了模拟精度,达到了设计要求,可以应用到实际生产中.

关键词： 混合模拟; 惯性台架; 变频调速

Abstract: Most of the current brake inertia benches adopt DC motor drive and purely mechanical simulation method，and they have disadvantages of slow response, inertia adjustment difficulties, low simulation accuracy. To overcome these shortcomings, based on methods of the mechanical simulation and electric simulation combination and adopting the technology of the vector frequency conversion, an automobile brake inertia bench that can achieve fast response and stepless adjustment was designed. This paper describes the basic principle of the bench, the overall structure, technical parameters and the choice of AC motor. Finally, the bench was used in the test and verification, the results show that the inertia error of bench is far less than that specified in the vehicle brake bench performance test standards. This design greatly improve simulation accuracy, achieves the design requirements, and can be applied to practical production.

Key words: hybrid simulation inertial bench frequency conversion

出版日期: 2011-08-28

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引用本文:

邢记龙, 周志刚, 李云鹏, 王铁山. 交流电机驱动机电混合模拟制动器惯性台架的研制[J]. 工程设计学报, 2011, 18(4): 293-297.

XING Ji-Long, ZHOU Zhi-Gang, LI Yun-Peng, WANG Tie-Shan. Design of the Ac motor drive electromechanical hybrid simulation brake inertia bench[J]. Chinese Journal of Engineering Design, 2011, 18(4): 293-297.

链接本文:

https://www.zjujournals.com/gcsjxb/CN/ 或 https://www.zjujournals.com/gcsjxb/CN/Y2011/V18/I4/293

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[2]	宋伟刚, 战欣, 王元元. 大型带式输送机驱动装置的比较研究[J]. 工程设计学报, 2004, 11(6): 301-311.
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