Dynamic and stress analysis of the main drive system in design process of an innovative fruit-vegetable washer
Authors: Bui V.P., Gavrushin S.S., Phung V.B., Danilenko T.K., Dang H.M., Prokopov V.S.
Published in issue: #4(100)/2020
Category: Mechanics | Chapter: Dynamics, Strength of Machines, Instruments, and Equipment
This paper describes a new drum-type fruit-vegetable washer, which is created on the basis of manual vegetable washing method. The main driving part of the washer is a crank mechanism with springs. The main drive design process is proposed to be carried out in two stages: dynamic research and strength analysis. The results of dynamic research show the effect of spring stiffness on reducing dynamic reactions in the crank mechanism as well as the required engine power, in other words, on reducing washer vibration and energy consumption. Stress analysis was performed using the finite element software package ABAQUS. The design process allows selecting a set of acceptable parameters for the main drive of the washer. This result is used to create a prototype of an innovative fruit-vegetable washer.
 Mokrushin Y.A., Shamin V.Y. Izvestiya vysshikh uchebnykh zavedeniy. Tekhinhicheski nauki — Proceedings of Higher Educational Institutions. Engineering sciences, 2013, no. 1 (25), pp. 123–130.
 Dang H.M., Phung V.B., Nguyen V.D., Tran T.T. VN Patent Application No. VN2019324A2, 2019 (In submission).
 Yamanin A.I., Zhukov V.A., Baryshnikov S.O. Vestnik Gosudarstvennogo universiteta morskogo i rechnogo flota imeni admirala S. O. Makarova — Bulletin of the State University of the Sea and River Fleet named after Admiral S.O. Makarov, 2018, no. 1, pp. 191–200.
 Arakelian V., Briot S. Advanced methods with illustrative examples. The Netherlands, Springer, 2015, 271 p.
 Frischknecht B.D., Howell L.L., Magleby S.P. Crank-slider with spring constant force mechanism. ASME 2004 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers Digital Collection, 2004. DOI: 10.1115/DETC2004-57318
 Tarnita D., Bolcu D. Contributions on the dynamic synthesis of crank-slider mechanisms actuated by springs. 12th IFToMM World Congress. Besançon, France, June 18–21, 2007.
 Jensen B.D., Howell L.L. Bistable configurations of compliant mechanisms modeled using four links and translational joints. ASME. J. Mech. Des, 2004, no. 126 (4), pp. 657–666.
 Tian Q., Flores P., Lankaran, H.M. A comprehensive survey of the analytical, numerical and experimental methodologies for dynamics of multibody mechanical systems with clearance or imperfect joints. Mechanism and Machine Theory, 2018, no. 122, pp. 1–57.
 Phuong B.V., Gavriushin S.S., Minh D.H., Binh P.V., Duc N.V. Application of a novel model “Requirement – Object – Parameter” for design automation of complex mechanical system. Advances in Intelligent Systems, Computer Science and Digital Economics, CSDEIS2019. Advances in Intelligent Systems and Computing, vol. 1127, Springer, Cham.
 Oreshin G.E., Loginov G.A., Ustroev A.A. Teknologii i teknicheskie sredstva mechanizirovannovo proizvoddstva produksii rastenievodstva i zivotnovodstva — Technologies and technical of mechanized production of crop and livestock products, 2014, no. 85, pp. 36–45.
 Pauls V.Y., Gaivoron M.A. Sbornik statei II Vserossiickoi konferencii Sovremenue nayko-prakticheskie reshenya v APK — Collection of articles of the II All-Russian (national) scientific-practical conference Modern scientific and practical solutions in the agro-industrial complex, 2018, pp. 408–413.
 Hibbeler R.C. Engineering Mechanics: Dynamics. Pearson Education, Inc., 2016, 791 p.
 Favorin M.V. Momenty inehsii tel. Spravochnik — Moments of inertia. Directory. Moscow, Mashinostroenie Publ., 1970, 513 p.
 Nguyen T.T. Nga, Dang H. Minh, Nguyen T.M. Hanh, Phung V. Binh, Bui V. Phuong, Thanh-Phong Dao, Duc V.N. Journal of Mechanical Engineering Research and Developments (JMERD) (accepted January 2020).
 Mariti L., Mucino V.H., Pennestrí E., Cavezza A., Gautam M., Valentini P.P. Journal of Mechanical Design, 2014, vol. 136(7), 071004 (7 p.).