Evaluation of open-loop linear drive accuracy achieved by calibration and linear thermal expansion compensation

Radio industry (Russia) Pub Date : 2019-05-20 DOI:10.21778/2413-9599-2019-29-2-54-61

N. Slobodzyan

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引用次数: 4

Abstract

The study is a part of the current work on the design and creation of a precision mechanism with parallel kinematics such as a space hexapod. The positioning accuracy and repeatability of the movable platform of the machine relative to its fixed base in the structure under consideration depends on the accuracy of the actuating elements of the hexapod – linear drives. The aim of the work is to assess the achievable accuracy of the linear drive, taking into account the main factors affecting the accuracy of its rod movement. The article describes the studies of the accuracy of the open-loop linear drive, which has no common feedback on the output coordinate. The main factors affecting the accuracy of movement are highlighted. The experimentally obtained estimates of the linear drive rod displacement errors are given. A technique is proposed for improving the linear drive accuracy by programmatically calibrating its ball screw drive and compensating for linear thermal expansion (LTE) when the drive is operating in a wide temperature range. An estimate of the calibrated linear drive rod movement accuracy with LTE compensation has been obtained.

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通过标定和线性热膨胀补偿实现的开环线性驱动精度评价

该研究是当前设计和创建具有平行运动学的精密机构(如空间六足机构)工作的一部分。在所考虑的结构中，机器的活动平台相对于其固定基座的定位精度和可重复性取决于六足直线驱动器的作动元件的精度。工作的目的是评估线性驱动的可实现精度，考虑到影响其杆运动精度的主要因素。本文研究了输出坐标无共同反馈的开环直线传动的精度问题。重点分析了影响运动精度的主要因素。给出了直线传动杆位移误差的实验估计。提出了一种提高直线传动精度的方法，即对滚珠丝杠传动进行程序标定，并对传动在较宽温度范围内工作时的线性热膨胀进行补偿。对经校正后的线性驱动杆的运动精度进行了估计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Radio industry (Russia)

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