一种减少机械臂能量消耗的新型弹簧机构

M. Plooij, M. Wisse
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引用次数: 64

摘要

大多数传统的机械臂使用马达来加速机械手。这将导致在执行重复任务时不必要的高能量消耗。本文提出了一种利用并联弹簧机构来降低机械臂重复性工作能耗的方法。通过在两个相连的滑轮上附加一个弹簧,实现了一种特殊的非线性弹簧特性。这种并联弹簧机构在不影响其改变任务参数(每次冲程时间、每次冲程位移、抓取时间和有效载荷)的情况下提供了机械手的加速度。将带弹簧机构的机械臂与不带弹簧机构的机械臂的能量消耗进行了比较。最优控制研究表明,由于弹簧机构,机械臂的能量消耗减少了22%。在2自由度的原型机上,我们实现了20%的能耗降低。这种差异是由于模型的简化。对于弹簧机构,有一个额外的能量成本,因为势能必须在启动时存储到弹簧中。这一成本等于2自由度臂在8冲程期间节省的总能量。其次,将机械手置于平衡位置之外可能会产生能量成本。我们以这样一种方式设计了弹簧机构,这种保持成本对于开始和结束位置的范围可以忽略不计。实验结果表明,该弹簧机构在降低机械臂能量消耗的同时,仍然能够处理不同的任务参数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel spring mechanism to reduce energy consumption of robotic arms
Most conventional robotic arms use motors to accelerate the manipulator. This leads to an unnecessary high energy consumption when performing repetitive tasks. This paper presents an approach to reduce energy consumption in robotic arms by performing its repetitive tasks with the help of a parallel spring mechanism. A special non-linear spring characteristic has been achieved by attaching a spring to two connected pulleys. This parallel spring mechanism provides for the accelerations of the manipulator without compromising its ability to vary the task parameters (the time per stroke, the displacement per stroke the grasping time and the payload). The energy consumption of the arm with the spring mechanism is compared to that of the same arm without the spring mechanism. Optimal control studies show that the robotic arm uses 22% less energy due to the spring mechanism. On the 2 DOF prototype, we achieved an energy reduction of 20%. The difference was due to model simplifications. With a spring mechanism, there is an extra energetic cost, because potential energy has to be stored into the spring during startup. This cost is equal to the total energy savings of the 2 DOF arm during 8 strokes. Next, there could have been an energetic cost to position the manipulator outside the equilibrium position. We have designed the spring mechanism in such a way that this holding cost is negligible for a range of start- and end positions. The performed experiments showed that the implementation of the proposed spring mechanism results in a reduction of the energy consumption while the arm is still able to handle varying task parameters.
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