Co-simulation of a quadruped robot's mechanical and hydraulic systems based on ADAMS and AMESim

Han Bao-ling, SI Shi-cai, Luo Qing-sheng, Xiao Da-hua, Niu Kai
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Abstract

In order to observe the change and fluctuation in flow and pressure of a hydraulic quadruped robot's hydraulic system when the robot walks on trot gait, a co-simulation method based on ADAMS and AMESim is proposed. Firstly, the change rule in each swing angle of the hydraulic quadruped robot's four legs is analyzed and converted to the displacement change of the hydraulic cylinder by calculating their geometric relationship. Secondly, the robot's dynamic model is built in ADAMS and its hydraulic and control system models are built in AMESim. The displacement change of the hydraulic cylinder in the hydraulic system is used as the driving function of the dynamics model in ADAMS, and the driving force of the dynamics model is used as the loads of the hydraulic system in AMESim. By introducing the PID closed-loop control in the control system, the co-simulation between hydraulic system and mechanical system is implemented. Finally, the curve of hydraulic cylinders' loads, flow and pressure are analyzed and the results show that they fluctuate highly in accordance with the real situation. The study provides data support for the development of a hydraulic quadruped robot's physical prototype.
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基于ADAMS和AMESim的四足机器人机械与液压系统联合仿真
为了观察液压四足机器人以小跑步态行走时液压系统流量和压力的变化和波动,提出了一种基于ADAMS和AMESim的联合仿真方法。首先,分析了液压四足机器人四条腿各摆角的变化规律,并通过计算其几何关系将其转化为液压缸的位移变化;其次,在ADAMS中建立了机器人的动力学模型,在AMESim中建立了机器人的液压和控制系统模型。在ADAMS中将液压系统中液压缸的位移变化作为动力学模型的驱动函数,在AMESim中将动力学模型的驱动力作为液压系统的负载。通过在控制系统中引入PID闭环控制,实现了液压系统与机械系统的联合仿真。最后对液压缸的载荷、流量和压力曲线进行了分析,结果表明液压缸的载荷、流量和压力曲线波动较大,符合实际情况。该研究为液压四足机器人物理样机的研制提供了数据支持。
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