Журналы →  Gornyi Zhurnal →  2021 →  №5 →  Назад

EQUIPMENT AND MATERIALS
Название Justification of the required hold-down dependence on the length and angle of high-angle pressure belt conveyor
DOI 10.17580/gzh.2021.05.10
Автор Sheshko E. E., Pestrikov O. V.
Информация об авторе

College of Mining, NUST MISIS, Moscow, Russia:

E. E. Sheshko, Professor, Candidate of Engineering Sciences, esheshko@mail.ru
O. V. Pestrikov, Post-Graduate Student

Реферат

High-capacity and high-angle pressure belt conveyors which come into use in open pit mines in Russia and in the post-Soviet space, as well as acknowledgment of their economic efficiency made large mineral mining companies interested in installation of such equipment. The related research and empirical data grow in number. However, conveyors currently operated in Russia and in the CIS countries are manufactured abroad. Both domestic and foreign technical literature lacks a commonly accepted design policy of the conveyors. Furthermore, most foreign-manufacture high-angle pressure belt conveyors have small angles and lengths. In the meanwhile, open pit mines in Russia need long high-capacity and high-angle conveyors. Many aspects of justification of high-angel conveyor parameters are sufficiently elucidated in technical literature. The estimate of the hold-down and its dependence on the angle and length of a conveyor is yet deficiently studied. The value of the hold-down has a direct influence on the conveyor characteristics, including resistance to motion and engine power requirements. Accordingly, this article analyzes the influence exerted by the angle and length of a conveyor on the hold-down. The stress state of the load on the belt of the high-angle conveyor is analyzed, and the required holddown is evaluated with respect to the conveyor capacity, angle and length. It is known that hold-down governs loading of the load-carrying branch, which affects its service life. The analysis shows that 30 % of down-time of high-angle conveyors in the world is caused by failures of the load-carrying branch. The relations are proposed for determining the required linear hold-down versus the length of a conveyor to ensure sliding of cargo layers relative to each other and relative to the belt along the longitudinal axis of the conveyor. The recommendations on hold-down distribution along the conveyor to slacken the hold-down influence on the resistance to motion and on the engine power are proposed.

Ключевые слова High-angle conveyor, longitudinal and tangential friction stresses, angle, load stress state, conveyor length, hold-down.
Библиографический список

1. Kuchumova A., Oshkin E. A stone city. Dobyvayushchaya promyshlennost. 2021. No. 1. pp. 22–32.
2. Droettboom M. The Cost and Value of High Angle Conveying—A Comparison of Economics for different Conveying Paths. 2020. Available at: https://news.bulk-online.com/bulk-solidshandling-archive/the-cost-and-value-of-high-angle-conveying-a-comparison-of-economicsfor-different-conveying-paths.html (accessed: 19.12.2020).
3. Sandwich Belt High Angle Conveyor for … Mining & In Pit Crushing Conveying : project. 2017.
Available at: https://bevconwayors.com/product/sandwich-belt-high-angle-conveyor-formining-in-pit-crushing-conveying/ (accessed: 15.12.2020).
4. Atakulov L. N., Toshev Zh. B., Kakharov S. K., Khaidarov Sh. B. Detection technique for jointing tears of steel-cable rubber belts. Gornyi vestnik Uzbekistana. 2018. No. 3(74). pp. 61–65.
5. Atakulov L. N., Sheshko O. E. Improvement of economic efficiency of the high-angle conveyor KNK-270 at Navoi Mining and Metallurgical Combinat. GIAB. 2019. No. 5. pp. 181–188.
6. Verzhanskiy A. P., Dmitriev V. G. Special belt conveyors. Series : Mining machine engineering. Moscow : Gornaya kniga, 2019. 496 p.
7. Dmitriev V. G., Verzhanskiy A. P. Theory of belt conveyors. Moscow : Gornaya kniga, 2017. 592 p.
8. Dos Santos J. A. High Angle Conveying: The Vital (Missing) Link to IPCC Systems–2017. Bulk Solids Handling. 2017. Vol. 37, No. 1. pp. 16–26.
9. Sheshko E. E., Atakulov L. N. Elasticity modulus steel-cable rubber conveyor belts. Gornyi Zhurnal. 2019. No. 4. pp. 73–76. DOI: 10.17580/gzh.2019.04.16
10. Makarova A. S., Telegina O. V. Installation prospects and characterization of steep angle conveyor belt at Mikhailovsky mining and processing plant. GIAB. 2018. No. 5. pp. 178–183.

11. Kuryatnikov A. V. Pressure belt weight sele ction for high-angle conveyor. Surface and Underground Mine Transport : Collected Works. Moscow : Nedra, 1975. Iss. 2.
12. Kury atnikov A. V. Analysis of load stability on high-angle pressure belt conveyor. Open Pit Coal Mining : Collected Works. Moscow : TsNIEIugol, 1975. No. 12(120).
13. Sheshko E. E., Kuryatnikov A. V., Shulyatev B. I., Rastorguev V. I. Experimental determination of pressure exerted by load on pressure belt of high-angle conveyor. Open Pit Coal Mining : Collected Works. Moscow : Nedra, 1975. Iss. 2.
14. Sheshko E. E. Influence of hold-down on operability and basic parameters of high-angle pressure belt conveyor. Gornyi Zhurnal. 2019. No. 4. pp. 69–73. DOI: 10.17580/gzh.2019.04.15
15. Conveyor Belt Systems. ContiTech AG, 2021. Available at: https://www.continental-industry.com/en/solutions/conveyor-belt-systems (accessed: 19.12.2020).
16. Belts for high-angle hoisting units. 2020. Available at: http://ctcmetar.ru/transport-glubokihkarerov/8961-konveyernye-lenty-dlya- naklonnyh-podemnikov.html (accessed: 19.12.2020).

Language of full-text русский
Полный текст статьи Получить
Назад