Improving path accuracy of a crank-type 6-dof parallel mechanism by suction compensation

E. Castillo-Castaneda; Y. Takeda

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Improving path accuracy of a crank-type 6-dof parallel mechanism by suction compensation

机译：通过吸力补偿提高曲柄式6-dof并联机构的路径精度

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The path accuracy of parallel mechanisms depends on both the mechanical design and the motion control algorithm that minimizes the following error. The PID control algorithm is not suitable for very precise motion control since it cannot compensate non-linear phenomena such as backlash and static friction or stiction. This work proposes a suction compensation algorithm to improve path accuracy of a crank-type 6-dof parallel mechanism. The stiction has been modeled as a dead-zone and has been experimentally identified. The results were compared with those of the classical PID including velocity and acceleration feed forward.

机译：并联机构的路径精度取决于机械设计和运动控制算法，这些算法可使跟随误差最小。 PID控制算法不适用于非常精确的运动控制，因为它无法补偿非线性现象，例如反冲和静摩擦或静摩擦。这项工作提出了一种吸力补偿算法，以提高曲柄式6-dof并联机构的路径精度。该静摩擦已被建模为死区，并已通过实验确定。将结果与经典PID的速度和加速度前馈进行了比较。

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《Mechanism and Machine Theory: Dynamics of Machine Systems Gears and Power Trandmissions Robots and Manipulator Systems Computer-Aided Design Methods》 |2008年第1期|共11页
作者
E. Castillo-Castaneda; Y. Takeda;
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原文格式 PDF
正文语种 eng
中图分类机械原理;
关键词
Parallel mechanisms; Path accuracy; Precision motion; Stiction compensation;

机译：并联机构;路径精度;精密运动;静力补偿;

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1. Improving path accuracy of a crank-type 6-dof parallel mechanism by suction compensation [J] . E. Castillo-Castaneda, Y. Takeda Mechanism and Machine Theory: Dynamics of Machine Systems Gears and Power Trandmissions Robots and Manipulator Systems Computer-Aided Design Methods . 2008,第1期

机译：通过吸力补偿提高曲柄式6-dof并联机构的路径精度
2. Geometric accuracy design and error compensation of a one-translational and three-rotational parallel mechanism with articulated traveling plate [J] . Tao Sun, Panfeng Wang, Binbin Lian, Proceedings of the Institution of Mechanical Engineers, Part B. Journal of engineering manufacture . 2018,第12期

机译：用铰接式行进板单塑三旋转平行机构的几何精度设计及误差补偿
3. Simulation of 6-DOF Parallel Robot for Coupling Compensation Method [J] . Ming Cong, Yingha Wu, Dong Liu, Information Technology Journal . 2011,第2期

机译：六自由度并联机器人耦合补偿方法的仿真
4. Measurement of movement error and its compensation for 6-DOF parallel mechanism worktable [C] . Yuanrui ZHANG, Jiang ZHU, Tomohisa TANAKA, Emerging technology in precision engineering XIV . 2012

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7. Measurement of movement error and its compensation for 6-DOF parallel mechanism worktable [O] . Yuanrui Zhang, Jiang Zhu, Tomohisa Tanaka, 2015

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8. Redundant, 6-DOF parallel manipulator structure with improved workspace and dexterity [R] . Stoughton, R. S., Salerno, R., Canfield, S., 1994

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Improving path accuracy of a crank-type 6-dof parallel mechanism by suction compensation

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