Abstract
The paper deals with the kinematic analysis of a particular case of a “multiple-bar mechanism” from Artobolevsky’s mechanisms collection. The structural analysis of this eight-link mechanism shows that it is a six class third order mechanism according to Assur-Artobolevsky classification. The kinematic analysis of such a mechanism is very difficult through the direct method. Usually, the kinematic analysis is performed by means of reducing the mechanism’s class through the swapping of the input and output links. The paper proposes another method to reduce the class of a mechanism, namely by choosing a certain moving link as referential and studying the relative movements of the remaining links/elements. Thus, the transmission function can be found, as a function of the original input and output links. Such a mechanism is useful for manufacturing of compound light structures.
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References
Artobolevsky, I.I.: Theory of Mechanisms. Izdatelstvo Nauca, Moskow (1955). (in Russian)
Artobolevsky, I.I.: Mechanisms on Modern Engineering Design, vol. 1. Mir Publisher, Moskow (1975)
Hain, K.: Systematik der zwanglaufigen achtgliedriger Getriebe, Maschinenmarkt, vol. 37 (1964)
Corves, B., Kurtensbach, S., Hüsing, M., Schneider, C.: A general classification for mechanisms regarding the motion task. Mechanisms, Transmissions and Applications, Series Mechanisms and Machine Design, vol. 3, pp. 59–66. Springer (2012)
Hartenberg, R.S., Denavit, J.: Kinematic Synthesis of Mechanisms. McGraw-Hill B.C, NY (1964)
Hung, C.-C., Yan, H.-S., Pennock, G.R.: A procedure to count the number of planar mechanisms subject to design constraints from kinematic chains. Mech. Mach. Theory 43, 676–694 (2008)
Pelecudi, C. (ed.): Basics of Mechanisms Analysis. Academiei Romane, Bucharest (1967)
Pelecudi, C., Maroş, D. (eds.): Mechanisms. Didactică şi Pedagogică, Bucharest (1985)
Moldovan, C.E., Lovasz, E.-C., Perju, D., Modler, K.-H., Maniu, I.: On the kinematic analysis of the fourth class mechanisms. In: Proceedings of the 14th IFToMM World Congress, Taipei, Taiwan, 25–30 Oct 2015, OS8-023 (2015) www.iftomm2015.tw
Luck, K., Modler, K.-H.: Getriebetechnik—Analyse, Synthese. Springer, Optimierung (1995)
Perju, D.: Mechanisms in Precision Mechanics (Mecanisme de mecanică fină), Litografia I.P.T.V., Timisoara, 1990. http://www.dmg-lib.org/
Lin, S., Modler, K.H., Hanke, U.: The application of mechanisms in producing textile-reinforced thermoplastic composite. Mach. Design Res. 24, 380–384 (2008)
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Moldovan, C.E., Perju, D., Lovasz, EC., Modler, KH., Maniu, I. (2017). On the Kinematic Analysis of a Sixth Class Mechanism. In: Corves, B., Lovasz, EC., Hüsing, M., Maniu, I., Gruescu, C. (eds) New Advances in Mechanisms, Mechanical Transmissions and Robotics. Mechanisms and Machine Science, vol 46. Springer, Cham. https://doi.org/10.1007/978-3-319-45450-4_5
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DOI: https://doi.org/10.1007/978-3-319-45450-4_5
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