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Tytuł artykułu

Analysis of the 2D motion of a monolith platform mechanism

Identyfikatory
Warianty tytułu
PL
Badanie ruchu 2D platformowego mechanizmu monolitycznego
Języki publikacji
EN
Abstrakty
EN
This paper summarises the results of motion analysis of a platform mechanism with a monolith design. A four-link planar mechanism was engineered in which the platform positioning is effected via one passive link and two eccentric links actuated by stepper motors. The prototype of the device was fabricated following a computation procedure based on the classical mechanism and machine theory and FEM calculations. Testing performed on the model and on the real device revealed the presence of two points on the platform for which the resultant of two independent perpendicular displacements implemented by two stages can be obtained for small values of angular displacement.
PL
Artykuł zawiera wyniki badań ruchu mechanizmu platformowego wykonanego w technologii monolitu. Zaprojektowano i wykonano czteroogniwowy mechanizm płaski, w którym platforma jest pozycjonowana przez jedno ogniwo bierne oraz przez dwa ogniwa mimośrodowe poruszane silnikami krokowymi. Po wstępnych obliczeniach klasycznego modelu tmm mechanizmu i następnie obliczeniach MES wykonano prototyp urządzenia. Badania modelowe i rzeczywistego obiektu wykazały, że na platformie znajdują się dwa punkty, w których można składać dla małych przemieszczeń kątowych dwa niezależne, prostopadłe przemieszenia pochodzące od napędów.
Rocznik
Strony
art. no. e2020040
Opis fizyczny
Bibliogr. 16 poz.,wz., il.
Twórcy
  • Student of the Doctoral School at Cracow University of Technology
  • Laboratory of Techno-Climatic Research and Heavy Duty Machines, Faculty of Mechanical Engineering, Cracow University of Technology
Bibliografia
  • 1. Gawlik, A., Harmatys, W., Łaczek, S., Tora, G. (2019). Manipulator effecting 2D microdisplacements. Advances in Mechanism and Machine Science. Mechanisms and Machine Science, 73, 1829–1838.
  • 2. Guangbo, Haoa, Xiuyun, He, Shorya, Awtar (2019). Design and analytical model of a compact flexure mechanism for translational motion. Mechanism and Machine Theory, 142, 1–24.
  • 3. Haiyang, Li, Guangbo, Hao (2015). A constraint and position identification (CPI) approach for the synthesis of decoupled spatial translational compliant parallel manipulators. Mechanism and Machine Theory, 90, 59–83.
  • 4. Jiangkun, Shang, Yanling, Tian, Zheng, Li, Fujun, Wang, Kunhai, Cai (2015). A novel voice coil motor-driven compliant micropositioning stage based on flexure mechanism. Review of Scientific Instruments, 86, 1–10.
  • 5. Junnan, Qian, Yangmin, Li, Lukai, Zhuge (2020). An Investigation on a Novel 3-RCU Flexible Micromanipulator. Micromachines, 423, 1–11.
  • 6. Ke-qi, Qi, Ya-lin, Ding, Yang, Xiang, Chao, Fang, Yang, Zhang (2017). A novel 2-DOF compound compliant parallel guiding mechanism. Mechanism and Machine Theory, 117, 21–34.
  • 7. Lijian, Li, Dan, Zhang, Sheng, Guo, Haibo, Qu (2019). Design, modeling, and analysis of hybrid flexure hinges. Mechanism and Machine Theory, 131, 300–316.
  • 8. Rouhani, E., Nategh, M.J. (2016). An elastokinematic solution to the inverse kinematics of microhexapod manipulator with flexure joints of varying rotation center. Mechanism and Machine Theory, 97, 127–140.
  • 9. Rui, Lina, Yingzi, Li, Yingxu, Zhang, Tingwei, Wanga, Zhenyu, Wanga, Zihang, Songa, Zhipeng, Doua, Jianqiang, Qiana (2019). Design of A flexure-based mixed-kinematic XY high-precision positioning platform with large range. Mechanism and Machine Theory, 142, 1–16.
  • 10. Ruizhou, Wang, Xianmin, Zhang (2017). Optimal design of a planar parallel 3-DOF nanopositioner with multi-objective. Mechanism and Machine Theory, 112, 61–83.
  • 11. Sicong, Wan, Qingsong, Xu (2016). Design and analysis of a new compliant XY micropositioning stage based on Roberts mechanism. Mechanism and Machine Theory, 95, 125–139.
  • 12. Xiaofeng, Li, Yangmin, Li (2013). Design and Analysis of a 2-DOF Micro-motion Stage based on Differential Amplifier. In: Proceedings of the 13th IEEE International Conference on Nanotechnology (472–477). Beijing.
  • 13. Xiaozhi, Zhang, Qingsong, Xu (2018). Design, fabrication and testing of a novel symmetrical 3-DOF large-stroke parallel micro/nano-positioning stage. Robotics and Computer–Integrated Manufacturing, 54, 162–172.
  • 14. Yangmin, Lia, Zhigang, Wua (2016). Design, analysis and simulation of a novel 3-DOF translational micromanipulator based on the PRB model. Mechanism and Machine Theory, 100, 235–258.
  • 15. Zaitsev, W.A., Raikhman, Ja.A., Bykovski P.A. (1978). Mikromanipulator, Patent no. 590536.
  • 16. Zeyi, Wu, Qingsong, Xu (2018). Design, optimization and testing of a compact XY parallel nanopositioning stage with stacked structure. Mechanism and Machine Theory, 126, 171–188.
Uwagi
Section "Mechanics"
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-76302007-0ad2-4b7e-9cd8-3fe02c30b096
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