The Pusher as an Object of the Simulation Model in the Tasks of Studying Cyclic Mechanisms Dynamics
Viktor V. Telegin, Igor V. Telegindownload PDF
Abstract. The cyclic mechanism is one of the basic automatic machines components. It is the cyclic mechanisms that define the performance and reliability limits of these machines. The methods for assessing the automatic machines reliability are based on data of dynamic forces acting on the mechanism’s links, leading to their deformation and possible destruction under certain operating conditions. Simulation modeling of dynamic processes in cyclic mechanisms is based on its representation in the form of interconnected typical objects, the allowable properties and limits of which are known. The article presents the dynamics study results one of the basic high-speed automatic machines mechanism in the object-oriented representation. Mechanism performs translational motion and allows the possibility of one-way kinematic connection breaking.
Pusher, Cyclic Mechanism, Dynamic Processes, Object-Oriented Technologies
Published online 1/5/2022, 6 pages
Copyright © 2022 by the author(s)
Published under license by Materials Research Forum LLC., Millersville PA, USA
Citation: Viktor V. Telegin, Igor V. Telegin, The Pusher as an Object of the Simulation Model in the Tasks of Studying Cyclic Mechanisms Dynamics, Materials Research Proceedings, Vol. 21, pp 274-279, 2022
The article was published as article 49 of the book Modern Trends in Manufacturing Technologies and Equipment
Content from this work may be used under the terms of the Creative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.
 I.I. Wolfson, Oscillations of Machines with Cyclic Action Mechanisms, Mashinostroenie, Leningrad, 1990.
 2. V.L. Weits, I. А. Gidaspov, G.V. Tsaryov, Dynamics of Drives with Closed Kinematics, Publishing House of Mordovia University, Saransk, 1991.
 I. Telegin, A. Kozlov, A. Zhirkov, Component simulation in problems of calculated model formation of automatic machine mechanisms, MATEC Web Conf. International Conference on Modern Trends in Manufacturing Technologies and Equipment (ICMTMTE 2017). 129 (2017) 03016. https://doi.org/10.1051/matecconf/201712903016
 V. Telegin, A. Kozlov, T. Shumilova, Development and research of the rotating lever object as a dynamic model of a cycle mechanism, International Conference on Modern Trends in Manufacturing Technologies and Equipment (ICMTMTE 2018). 224 (2018) 02078. https://doi.org/10.1051/matecconf/201822402078
 V.V. Telegin, Performance Assessment in Design of High-Speed Automatic Machines Based on Analysis of Their Dynamics, Proceedings of the 6th International Conference on Industrial Engineering (ICIE 2020), Lecture Notes in Mechanical Engineering. (2021) 1000–1007. https://doi.org/10.1007/978-3-030-54814-8_115
 I.V. Telegin, Dynamics of the crank press, RU Patent 2013618511. (2013).
 Yu.А. Miropolsky, Cold Die Forging on Automatic Machines, Mechanical Engineering, Мoscow, 2001.
 G.A. Navrotsky, Forging and stamping machines, Mechanical engineering, Moscow, 1965.
 V.G. Kontsevich, Solid State Modeling of Engineering Products in Autodesk Inventor, DMK Press, Moscow, 2007.
 A.A. Alyamovsky, Engineering Computations in SolidWorks Simulation, DMK Press, Мoscow, 2010.
 V.V. Telegin, A.M. Kozlov, A.V. Кirichek, Solid Modeling in Autodesk Inventor at Initial Stage of Training of Specialists in Field Mechanical Engineering, Proceedings of the 4th International Conference on Industrial Engineering (ICIE 2018), Lecture Notes in Mechanical Engineering. (2019) 1241–1247. https://doi.org/10.1007/978-3-319-95630-5_130
 A.V. Ryabova, V.Yu. Tertychny-Dauri, Elements of the theory of stability, Textbook, ITMO University, St. Petersburg, 2015.
 A.S. Volmir, Stability of deformable systems, Part 1, textbook for universities, Yurayt Publishing House, Moscow, 2021.
 V.Z. Aladiev, V.K. Boyko, E.A. Rovba, Programming in Maple and Mathematica Packages: Comparative Aspect, Monograph, Grodno State University, Grodno, 2011.
 Ch.G. Edwards, D.E. Penny, Differential Equations and Boundary Value Problems, Modeling and Computation with Mathematica, Maple and MATLAB, Dialectics-Williams, Kiev, 2007.