行走式挖掘机最佳受力分布研究

M. Hutter, Philipp Leemann, Stefan Stevšić, Andreas Michel, Dominic Jud, M. Höpflinger, R. Siegwart, R. Figi, Christian Caduff, M. Loher, Stefan Tagmann
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引用次数: 17

摘要

在12吨手扶挖掘机上成功实施了力控制策略,优化了地面反力分布,提高了稳定性,减少了地形破坏,降低了操作复杂度。采用巧妙布置的标准工业阀元件分别控制液压缸的进出流量,实现了纯基于压力反馈的精确、快速的关节转矩控制。在整个系统层面上,我们实现了自动化的力分配,以调整压力中心和平整机器的机舱。当操作员仍然可以完全控制挖掘机时,该辅助系统保证了与地面的永久接触,并且与地形无关的四个车轮之间的理想力分配。该方法显著提高了行走挖掘机在崎岖地形上的可操作性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Towards optimal force distribution for walking excavators
This paper presents the successful implementation of force control strategies on a 12 ton walking excavator to optimize the ground reaction force distribution for better stability, less terrain damage and to reduce the operation complexity. Using cleverly arrange standard industrial valve components to separately control in- and out-flow of the hydraulic cylinders, we achieve accurate and fast joint torque control purely based on pressure feedback. On the full system level, we realize an automated force distribution to adjust the center of pressure and to level out the cabin of the machine. While the operator has still full control over the excavator, this assistance system guarantees permanent ground contact and ideal force distribution among the all four wheels independent of the level of the terrain. The proposed method significantly improves operability of the walking excavator in rough terrain.
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