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Vol 239
Pages:
570
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RUS ENG
Electromechanics and mechanical engineering

Scraper Face Conveyors Dynamic Load Control

Authors:
E. K. Eshchin
About authors
  • T.F.Gorbachev Kuzbass State Technical University
Date submitted:
2019-05-05
Date accepted:
2019-07-03
Date published:
2019-10-27

Abstract

The task of controlling the dynamic loading of scraper face conveyors (SC) is considered and the unsatisfactory state of loading of mechanical and electrical components of the SC is recorded. The possibility of the appearance of a self-oscillatory nature of the entire system load due to the peculiarities of the movement of the traction chain along   the lattice frame of the SC is indicated. The property of the system is noted – the cyclic nature of the loading of the circuit during movement, which causes energy exchange processes between the mechanical and electromotive components of the conveyor (when using the head and tail electric drives) through the common cable network of the   power supply system of the SC. A high level of dynamic loading of the electromechanical system causes the problem of eliminating the self-oscillating operating mode of the SC that generates it which is proposed to be solved by changing the angular rotation speeds of the SC drive sprockets. Angular speeds can be changed by applying frequency control of asynchronous electric motors. The efficiency of setting the frequency of electric motor stator currents of the head and tail drives of the conveyor is established in proportion to the frequency of rotors rotation to eliminate self- oscillating modes of operation in the main operating mode. The possibility of reducing the starting shock values of   the electromagnetic moments of electric motors is considered. The results of the calculation of the start-up and liquidation of the self-oscillating operating mode are presented on the example of the scraper face conveyor Anzhera-34. The results of calculations of the start-up modes and the main operational transportation of coal in an uncontrolled mode of operation and after the introduction of control are compared, based on which it is concluded that it is advisable to use active control of the dynamic loading of SC.

10.31897/pmi.2019.5.570
Go to volume 239

References

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Cited By
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2. Tension prediction for the scraper chain through multi-sensor information fusion based on improved Dempster-Shafer evidence theory. Alexandria Engineering Journal. 1 February 2023, Vol. 64, P. 41-54. DOI: 10.1016/j.aej.2022.08.039 [Scopus] (cited: 6)
3. Modeling of various modes of belt conveyor braking. Mining Informational and Analytical Bulletin. 2022, P. 80-95. DOI: 10.25018/0236_1493_2022_11_0_80 [Scopus] (cited: 4)
4. Design rationalization of the scraper conveyor section by means of an automated method of strength characteristics analysis. Sustainable Development of Mountain Territories. 2022, Vol. 14, P. 142-150. DOI: 10.21177/1998-4502-2022-14-1-142-150 [Scopus] (cited: 4)
5. Modeling operation control of chain conveyor drives using soft computing. Mining Informational and Analytical Bulletin. 2022, Vol. 2022, P. 130-142. DOI: 10.25018/0236_1493_2022_3_0_130 [Scopus]
6. CONTROL OF STARTING MODES OF AN APRON CONVEYOR MULTI-MOTOR ELECTRIC DRIVE. Eurasian Physical Technical Journal. 2021, Vol. 18, P. 74-81. DOI: 10.31489/2021No4/74-81 [Scopus] (cited: 3)
7. Procedure to determine weighted average capacity of machine chains in potash mines. Mining Informational and Analytical Bulletin. 2021, Vol. 2021, P. 125-133. DOI: 10.25018/0236_1493_2021_7_0_125 [Scopus] (cited: 1)
8. Calculation and Construction of Load Diagrams and Static Characteristics of Multi-Motor Electric Drive System Using Methods of Equivalent Forces and Reduced Moments. E3S Web of Conferences. 16 December 2020, Vol. 220, DOI: 10.1051/e3sconf/202022001033 [Scopus] (cited: 7)
9. Calculation of Load Diagrams and Static Characteristics of Multimotor Electric Drive Systems using the Methods of Equivalent Forces and Reduced Moments. International Journal of Technology. 2020, Vol. 11, P. 1537-1546. DOI: 10.14716/ijtech.v11i8.4541 [Scopus] (cited: 19)
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