Factor of the Finite Rigidity of the Working Member in the Dynamics of the Vibratory Machine

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Vibratory transport and technological machines (VTTM) are widely used in the various spheres of the industry: for transportation of the friable and separate particles, their dosed supply, sorting and realization of various technological processes.One of the factors that has an influence on the process of vibratory transportation is elasticity of the working member bottom of a vibratory transportation and technologic machine.This problem is less studied in theory of vibratory transportation [1, 2].A system vibratory drive – rigid frame of the vibratory member – elastic bottom of the working member – friable load” is considered in the report and dynamical and mathematical models of their interaction are worked out.A systematic approach to the study of influence of the working member elastic bottom on the technologic process is used and some results of the research are presented.It has been established with the help of developed models that at coincidence of phases of vibrations of the working member frame and elastic bottom rigidly fastened to it a speed of transportation of the friable material (load) rises significantly. On the bases of the mentioned result a new construction is developed.

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Edited by:

Bale V. Reddy, Shishir Kumar Sahu, A. Kandasamy and Manuel de La Sen

Pages:

93-96

Citation:

V. Zviadauri et al., "Factor of the Finite Rigidity of the Working Member in the Dynamics of the Vibratory Machine", Applied Mechanics and Materials, Vol. 627, pp. 93-96, 2014

Online since:

September 2014

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[1] I.I. Blekhman, G.J. Djanelidze. Vibratory displesement. Nauka, Moscow, (1984).

[2] I.F. Goncharevich. Dynamics of the vibratory transportation. Nauka, Moscow, (1992).

[3] L.G. Loiciansci, L.G. Lure. Curs of the Theoretical mechanics. V. 2, Nauka, Moscow, (1983).

[4] V.S. Zviadauri. Dynamics of the Vibratory Transport-technological machines. Mecniereba, Tbilisi, (2001).

[5] Fillipov A.P. Oscillations of the deformable systems. Moscow, Mashinostroenie. (1970).