Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
This paper presents a method of numerical modelling of parallel mechanisms with clearances in their kinematic pairs taken into account. The pairs with clearances are modelled as shape connections based on constraints in the form of contact interactions. Using the created models simulations were run to determine the positioning errors of the links in a parallel mechanism with three degrees of freedom (MR2120). In particular, the accuracy of positioning the links close to the mechanism singular configurations was studied.
Rocznik
Tom
Strony
5--18
Opis fizyczny
Bibliogr. 14 poz., rys., tab., wykr.
Twórcy
autor
- Department of Biomedical Engineering Mechatronics and Theory of Mechanisms Faculty of Mechanical Engineering Wroclaw University of Technology ul. Łukasiewicza 7/9, 50-371 Wrocław, POLAND
Bibliografia
- [1] Bałchanowski J. (2014a): Modelling and simulation researches of translational parallel mechanism with the joints clearance taking into account (in Polish). – Modelling in Engineering”, no 50 (tom 19), pp.5-12.
- [2] Bałchanowski J. (2014b): Topology and analysis of the singularities of a parallel mechanism with three degrees of freedom. – Archives of Civil and Mechanical Engineering, vol.14, No.1, pp.80-87.
- [3] Bałchanowski J. (2000): Selected problems of parallel manipulator computer simulation. – In: VIII International Congress on the Theory of Machines and Mechanisms. University of Liberec, pp.67-72.
- [4] Bałchanowski J. and Gronowicz A. (2001): Topology and geometry of 3 dof parallel manipulators. – In: Eighth IFToMM International Symposium on Theory of Machines and Mechanisms. SYROM 2001, Bukareszt, 25 – 30.
- [5] Bałchanowski J. (2008): Topology, geometry and kinematics of selected translational parallel mechanisms (in Polish). – Mechanical Review, R.67, No.10, pp.20-26.
- [6] Bałchanowski J. (2014c): Some aspects of topology and kinematics of a 3DOF translational parallel mechanism. – International Journal of Applied Mechanics and Engineering, vol.19, No.1, pp.5-15.
- [7] Chebbi A-H., Affi Z. and Romandhane L. (2009): Prediction of the pose errors produced by joints clearance for 3-UPU parallel robot. – Journal of Mechanism and Machine Theory, No.44, pp.1768-1783.
- [8] Haug E.J. (1989): Computer Aided Kinematics and Dynamics of Mechanical Systems. – Boston: Allyn and Bacon.
- [9] Kosuge K., Fukuda T. and Mehregany M. (1991): Kinematic analysis of precision planar manipulator on silicon. – IEEE Transaction on Transducers, No.91, pp.618-621.
- [10] Mallik A.K. and Dhande S.G. (1987): Analysis and synthesis of mechanical error in path-generating linkages using a stochastic approach. – Journal of Mechanism and Machine Theory, No.22, pp.115-123.
- [11] Merlet J-P. (2000): Parallel Robots. – London, Kluwer, Academic Publ.
- [12] Ting K.L., Zhu J. and Watkins D. (2000): The effect of joints clearance on position and orientation deviation of linkages and manipulators. – Journal of Mechanism and Machine Theory, No.35, pp.391-401.
- [13] Tsai L.W. (1999): Robot Analysis: The Mechanics and Parallel Manipulators. – New York: John Wiley and Sons, Inc.
- [14] Zhu J. and Ting K. (2000): Uncertainty analysis of planar and spatial robot with joint clearances. – Journal of Mechanism and Machine Theory, No.35, pp.1239-1256.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-76c97039-054d-45a4-9f7a-a3034d6bad3a