重型自卸车脱扣防侧翻综合控制研究

IF 0.5 4区 工程技术 Q4 ENGINEERING, MECHANICAL International Journal of Heavy Vehicle Systems Pub Date : 2023-01-01 DOI:10.1504/ijhvs.2023.134330
Zhong cheng Fu, Ming mao Hu, Qing he Guo, Ai hong Gong, Qing shan Gong, Zhi gang Jiang, Dong Guo, Zi wen Liao
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引用次数: 0

摘要

为有效解决重型自卸车在凹凸路面上的起下坠侧翻问题,提出了一种差动制动控制与主动悬架控制相结合的综合控制方法。建立了重型自卸车九自由度动力学模型,并以横向荷载传递率作为侧翻评价指标。采用差动制动控制的方法为四个车轮提供制动力矩,采用主动悬架控制的方法为主动悬架提供主动悬架控制力,以提高自卸车的侧倾稳定性和平稳性。在鱼钩脱扣工况和j转脱扣工况下,采用MATLAB/Simulink和Trucksim进行了联合仿真。仿真结果表明,与主动悬架控制和差动制动控制相比,本文提出的综合控制方法在鱼钩脱扣工况下可使车身侧倾峰值角分别减小4.505°和0.182°,在j转脱扣工况下可使车身侧倾峰值角分别减小2.21°和0.077°,具有更好的抗侧翻性能。鱼钩脱扣工况下整车俯仰角加速度分别降低了2.53和0.32°/s2, j转脱扣工况下整车俯仰角加速度分别降低了0.73和0.30°/s2,平顺性较好。
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Study on integrated control of tripping anti-rollover for heavy dump trucks
In order to effectively solve the tripping rollover problem caused by heavy dump trucks on concave-convex roads, an integrated control method combining differential braking control and active suspension control is proposed. A nine-degree-of-freedom dynamic model for heavy dump trucks is established, and the lateral load transfer rate is used as the rollover evaluation index. The braking torque is provided for the four wheels by the method of differential braking control, and the active suspension control force is provided for the active suspension by the method of active suspension control to improve the roll stability and smoothness of the dump truck. The co-simulation of MATLAB/Simulink and Trucksim is carried out under the fishhook tripping condition and J-turn tripping condition. The simulation results show that, compared with active suspension control and differential braking control, the integrated control method proposed in this paper reduces the peak body roll angle by additional 4.505 deg and 0.182 deg under the fishhook tripping condition, and reduces the peak body roll angle by additional 2.21 deg and 0.077 deg under the J-turn tripping condition, which shows better rollover resistance. And the integrated control method reduces the pitch angular acceleration of the vehicle by additional 2.53 deg/s2 and 0.32 deg/s2 under the fishhook tripping condition, reduces the pitch angular acceleration of the vehicle by additional 0.73 deg/s2 and 0.30 deg/s2 under the J-turn tripping condition, which shows better ride comfort.
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来源期刊
International Journal of Heavy Vehicle Systems
International Journal of Heavy Vehicle Systems 工程技术-工程:机械
CiteScore
1.30
自引率
0.00%
发文量
17
审稿时长
9 months
期刊介绍: IJHVS provides an authoritative source of information and an international forum in the field of on/off road heavy vehicle systems, including buses. It is a highly professional and refereed journal which forms part of the proceedings of the International Association for Vehicle Design. IAVD is an independent, non-profit, learned society which provides a forum for professionals in both industry and academic institutions to meet, exchange ideas and disseminate knowledge in the field of automotive engineering, technology, and management.
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