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Energy Efficient Parallel Configuration Based Six Degree of Freedom Machining Bed

Author

Listed:
  • Zareena Kausar

    (Department of Mechatronics and Biomedical Engineering, Air University, Islamabad 44000, Pakistan)

  • Muhammad Faizan Shah

    (Department of Mechanical Engineering, Khwaja Fareed University of Engineering and IT, Rahim Yar Khan 64200, Pakistan)

  • Zeeshan Masood

    (Department of Control Science and Engineering, School of Automation, Beijing Institute of Technology, Beijing 100081, China)

  • Hafiz Zia Ur Rehman

    (Department of Mechatronics and Biomedical Engineering, Air University, Islamabad 44000, Pakistan)

  • Sardor Khaydarov

    (Innovative Educational Technologies, Andijan Machine Building Institute, Andizhan 170100, Uzbekistan)

  • Muhammad Tallal Saeed

    (Department of Mechatronics and Biomedical Engineering, Air University, Islamabad 44000, Pakistan
    Department of Intelligent Systems and Control Engineering, School of Automation Science and Electrical Engineering, Beihang University, Beijing 100191, China)

  • Omid Razmkhah

    (School of Mechanical, Aerospace and Automotive Engineering, Faculty of Engineering, Environmental and Computing, Coventry University, Coventry CV1 5FB, UK)

  • Haseeb Yaqoob

    (Department of Mechanical Engineering, Khwaja Fareed University of Engineering and IT, Rahim Yar Khan 64200, Pakistan)

Abstract

The process of material removal from a workpiece to obtain the desired shape is termed machining. Present-day material removal technologies have high spindle speeds and thus allow quick material removal. These high-speed spindles are highly exposed to vibrations and, as a result, the accuracy of the final workpiece’s dimensions is compromised. To overcome this problem, the motion of the tool is restricted, and multiple degrees of freedom are given through the motion of the workpiece in different axes. A machining bed configured as a parallel manipulator capable of giving six degrees of freedom (DOF) to the workpiece is proposed in this regard. However, the proposed six DOF machining bed should be energy efficient to avoid an increase in machining cost. The benefit of using the proposed configuration is a reduction in dimensional error and computational time which, as a result, reduces the energy utilization, vibrations, and machining time in practice. This paper presents kinematics, dynamics and energy efficiency models, and the development of the proposed configuration of the machining bed. The energy efficiency model is derived from the dynamics model. The models are verified in simulation and experimentally. To minimize error and computation time, a PID controller is also designed and tested in simulation as well as experimentally. The resulting energy efficiency is also analyzed. The results verify the efficacy of the proposed configuration of the machining bed, minimizing position error to 2% and reducing computation time by 27%, hence reducing the energy consumption and enhancing the energy efficiency by 60%.

Suggested Citation

  • Zareena Kausar & Muhammad Faizan Shah & Zeeshan Masood & Hafiz Zia Ur Rehman & Sardor Khaydarov & Muhammad Tallal Saeed & Omid Razmkhah & Haseeb Yaqoob, 2021. "Energy Efficient Parallel Configuration Based Six Degree of Freedom Machining Bed," Energies, MDPI, vol. 14(9), pages 1-23, May.
  • Handle: RePEc:gam:jeners:v:14:y:2021:i:9:p:2642-:d:549000
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    Citations

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    Cited by:

    1. Bożena Zwolińska & Jakub Wiercioch, 2022. "Selection of Maintenance Strategies for Machines in a Series-Parallel System," Sustainability, MDPI, vol. 14(19), pages 1-20, September.

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