Experimental study of resonance vibrations of the vibratory machine excited by a ball auto-balancer

Autor: Volodymyr Yatsun
Rok vydání: 2020
Předmět:
vibratory separator
Vibration exciter
020209 energy
Acoustics
resonance vibratory machine
0211 other engineering and technologies
Energy Engineering and Power Technology
02 engineering and technology
Industrial and Manufacturing Engineering
Management of Technology and Innovation
Boiling
vibratory sieve
lcsh:Technology (General)
021105 building & construction
0202 electrical engineering
electronic engineering
information engineering
lcsh:Industry
vibration exciter
Electrical and Electronic Engineering
Physics
Applied Mathematics
Mechanical Engineering
vibratory table
sommerfeld effect
Resonance
Rotational speed
Physics::Classical Physics
Computer Science Applications
Vibration
Amplitude
Control and Systems Engineering
Excited state
resonance vibrations
Ball (bearing)
lcsh:T1-995
lcsh:HD2321-4730.9
Zdroj: Eastern-European Journal of Enterprise Technologies, Vol 2, Iss 1 (104), Pp 32-40 (2020)
ISSN: 1729-4061
1729-3774
DOI: 10.15587/1729-4061.2020.201105
Popis: A prototype of the universal resonance vibratory machine of wide use has been designed. The base of the vibratory machine is a vibratory table. Elastic supports make it possible for the platform of a vibratory machine, which has three degrees of freedom, to execute three main vibrational motions corresponding to three resonant frequencies. The vibration exciter is shaped in the form of a ball auto-balancer. It is assumed that the balls in the auto-balancer would get stuck at the first resonance shaft rotation velocity. The first form of resonance oscillations would be induced in this case. The vibratory table can be used on its own. In addition, the platform can host attachments with sieves for sifting or separating a loose material, a tumbling container, molds for bricks, slabs, etc. The experimental study has established that the proper choice of the number of plates in the supports, the number and mass of the balls could ensure almost matching dynamic characteristics of the vibratory machine in the configurations including a vibratory table and vibratory separator. At the same time, when the shaft rotates at speeds exceeding the first resonance frequency, the platform executes (almost undisturbed) vertical progressive oscillations. As the shaft’s rotation speed increases, the platform’s oscillation amplitude increases while the frequency practically does not change. If the shaft rotation speed exceeds the first resonance frequency by 15–20%, the accelerations of the platform become sufficient to form a boiling layer at the surface of the platform. As the shaft’s rotation speed increases, the growth of the amplitude of oscillations slows down, which is due to both the sliding of the balls along the track and the non-linearity of the supports at large deformations. The current study has confirmed the efficiency and versatility of the designed vibratory machine, thereby providing the basis for its further improvement
Databáze: OpenAIRE
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