关于使用无齿轮电机构建可在不平整表面行走的外骨骼

V. V. Budanov, E. Lavrovsky
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引用次数: 0

摘要

本研究考虑的是人类操作员在梯子(或斜面)上有规律地行走(向上或向下)的问题,他的下肢装有外骨骼,并带有额外的负载。假定外骨骼在膝关节以及其他关节处配备了不带变速箱的高扭矩电动马达。在实施过程中,电动马达和具有使用该机构工作经验的人类操作员都将参与其中。运动的名义模式,特别是与用便携式脚绕过障碍物(台阶)并在下一个台阶时将其置于支撑位置有关的运动模式,是由人设定和支持的。电动马达控制算法的任务是部分减轻操作者的负担。从最大限度减少人体能耗的角度来看,支撑腿尤其是其膝关节最为重要。在支撑腿的膝关节中,提出了一种控制相应电动马达的算法,该算法基于对支撑物垂直反作用力的测量,或许还与膝关节角度和角速度相结合。反馈被构建出来,其系数的 "成功 "值可以使用一种最小二乘法按照标称模式进行预测。这种反馈的任务实际上是分配落在操作员和电机系统上的负荷。通过使用数值研究方法,我们可以看到在一个常规步骤中,这原则上可以带来怎样的能源消耗效益。这种反馈结构原理进一步延伸到支撑腿的髋关节和踝关节力矩。假定便携式支腿在任何地方都仅由人类操作者自身的努力来控制,不使用变速箱可以在没有太多摩擦损失的情况下实现这一点,这反过来又会影响到能源成本和操作者的小成本。
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About the Use of Gearless Electric Motors in the Construction of an Exoskeleton Walking on an Uneven Surface
The regular walking (up or down) on a ladder (or an inclined plane) of a human operator with an exoskeleton of the lower extremities, carrying an additional load, is considered. It is assumed that the exoskeleton is equipped with high— torque electric motors without gearboxes — in the knee and, perhaps, in other joints. The modes of flat, single-support quasi-comfortable walking are considered, in the implementation of which both electric motors and a human operator with experience working with this mechanism participate. The nominal pattern of movement associated, in particular, with the circumvention of obstacles (steps) with a portable foot and placing it in the support position at the next step is set and supported by a person. The task of the algorithm controlling electric motors is to partially reduce the load that falls on the operator. From the point of view of minimizing human energy consumption, the supporting leg and especially its knee joint are the most important. In the knee joint of the supporting leg, an algorithm for controlling the corresponding electric motor is proposed, based on measuring the vertical reaction force of the support in combination, perhaps, with the angle in the knee and angular velocity. Feedback is constructed, the "successful" values of the coefficients of which can be predicted using a kind of least squares method along the nominal mode. The task of this feedback is actually the distribution of the load that falls to the share of the operator and the system of electric motors. It is shown by using numerical research methods to what benefits in terms of energy consumption in one regular step this can, in principle, lead. This principle of feedback construction extends further to the hip and ankle moments of the supporting leg. It is assumed that the portable leg is controlled everywhere only by the human operator’s own efforts, the absence of gearboxes allows this to be done without much friction loss, which in turn affects the smallness of energy costs and for the operator.
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来源期刊
Mekhatronika, Avtomatizatsiya, Upravlenie
Mekhatronika, Avtomatizatsiya, Upravlenie Engineering-Electrical and Electronic Engineering
CiteScore
0.90
自引率
0.00%
发文量
68
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