Inverse kinematic control algorithm for a welding robot - positioner system to trace a 3D complex curve

2019 International Conference on Advanced Technologies for Communications (ATC) Pub Date : 2019-10-01 DOI:10.1109/ATC.2019.8924540

C. My, D. X. Bien, B. H. Tung, L. C. Hieu, N. V. Cong, T. Hiếu

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引用次数: 11

Abstract

The welding robots equipped with rotary positioners have been widely used in several manufacturing industries. However, for welding a 3D complex weld seam, a great deal of points should be created to ensure the weld path smooth. This is a boring job and is a great challenge - rotary positioner system since the robot and the positioner must move simultaneously at the same time. Therefore, in this article, a new inverse kinematics solution is proposed to generate the movement codes for a six DOFs welding robot incorporated with a rotary positioner. In the algorithm, the kinematic error is minimized, and the actual welding error is controlled so that it is always less than an allowable limit. It has shown that the proposed algorithm is useful in developing an offline CAD-based programming tool for robots when welding complex 3D paths. The use of the algorithm increases the accuracy of the end-effector positioning and orientation, and reduces the time for teaching a welding robot - positioner system. Simulation scenarios demonstrate the potency of the suggested method.

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焊接机器人定位系统跟踪三维复杂曲线的逆运动学控制算法

装配旋转定位器的焊接机器人已广泛应用于多个制造行业。然而，对于三维复杂焊缝的焊接，需要创建大量的点来保证焊接路径的光滑。这是一项枯燥的工作，也是一个巨大的挑战-旋转定位系统，因为机器人和定位器必须同时运动。因此，本文提出了一种新的反运动学解来生成带有旋转定位器的六自由度焊接机器人的运动代码。在该算法中，运动误差被最小化，实际焊接误差被控制在允许范围内。结果表明，该算法可用于开发基于cad的机器人离线编程工具，用于复杂三维路径的焊接。该算法的应用提高了末端执行器定位和定向的精度，减少了焊接机器人-定位器系统的教学时间。仿真场景证明了所建议方法的有效性。

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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2019 International Conference on Advanced Technologies for Communications (ATC)

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