MINING EQUIPMENT

Original Paper

UDC 622.23.05, 622.013.3 © I.S. Syrkin, D.M. Dubinkin, V.Yu. Sadovets, 2023

ISSN 0041-5790 (Print) • ISSN 2412-8333 (Online) • Ugol’ – Russian Coal Journal, 2023, ¹ S12, pp. 20-31

DOI: http://dx.doi.org/10.18796/0041-5790-2023-S12-20-31

Title

JUSTIFICATION OF THE CIRCUIT DESIGN OF A DIGITAL DISPATCH SYSTEM FOR A COAL OPEN-PIT MINES

Authors

Syrkin I.S.1 , Dubinkin D.M.1 , Sadovets V.Yu.1

1 T.F. Gorbachev Kuzbass State Technical University, Kemerovo, 650000, Russian Federation

Authors Information

Syrkin I.S.,PhD (Engineering), Associate Professor of the Department of Information and Automated Production Systems, e-mail: syrkin@kuzstu.ru

Dubinkin D.M., PhD (Engineering), Associate Professor, Associate Professor of the Department of Mining Machines and Complexes, e-mail: ddm.tm@kuzstu.ru

Sadovets V.Yu., PhD (Engineering), Associate Professor, Associate Professor of the Department of Information and Automated Production Systems, e-mail: svyu.pmh@kuzstu.ru

Abstract

The article presents the rationale for the schematic design of a digital dispatch system for a coal mine, which is an automated control system for the mining and transport complex during mineral extraction. For this purpose, leading global and domestic developers of automation systems for the dispatch process at a coal enterprise were identified and the main advantages and disadvantages of these systems were identified. In addition, functional and structural diagrams of the interaction of subsystems of existing automated solutions for quarry transport dispatch control systems are presented. Based on the experience of developing the considered technologies used in the creation of automated systems for the mining and transport complex, six main subsystems were identified, which should comprise the developed digital dispatch system for a coal mine. The need to develop each of the subsystems of the digital coal mine dispatch system is determined by its functional purpose. For this purpose, the composition of the equipment and components has been preformed, which must be included in the structure of the system and ensure the uninterrupted and reliable functioning of the entire digital dispatch system. Based on the identified advanced technolo? gies for the development of automated systems for the mining and transport complex, the formed requirements for dispatch systems and its software, a circuit design for a digital dispatch system for a coal mine was developed. At this stage of development and research, the formulated aspects of creating automated dispatch systems make it possible to evaluate the functionality of structural units and determine the hardware and information relation? ship between them. The direction of further research is the development of algorithms for the interaction of the components included in the structure of the digital dispatch system, both among themselves and with external systems, as well as the design of a constructive solution for the digital dispatch system for a coal mine.

Keywords

Mining, Open pit mining, Dispatch system, Software, Unmanned mining dump truck.

References

1. Trubetskoy K.N., Kuleshov A.A., Klebanov A.F. & Vladimirov D.Ya. Modern control systems for mining transport complexes. St. Petersburg, Nauka Publ,, 2007, 306 p. (In Russ.).

2. Vladimirov D.Ya., Klebanov A.F. & Perepelitsin A.I. Dispatch system “Quarry”: from monitoring heavy-duty dump trucks to managing the mining transport complex and optimizing work in the quarry. Gornaya promyshlennost, 2004, (4). (In Russ.).

3.Official website Digital/VIST. Available at: https://www.zyfra.com/ru/industries/mining/ (accessed 15.11.2023). (In Russ.).

4. Klebanov D.A., Kuznetsov I.V. & Bigel N.V. Principles of constructing a system for remote and autonomous control of a mining dump truck. Gornaya promyshlennost, 2013, (4), pp. 8-13. (In Russ.).

5. Fedorina A.V., Sharonova A.A., Osintsev N.A. & Pytalev I.A. Using a dispatch control system to increase the productivity of dump trucks (using the example of a coal mine). Sovremennye problemy transportnogo kompleksa Rossii, 2015, Vol. 5, (1), pp. 29-33. (In Russ.).

6. Klebanov D.A., Kuznetsov I.V. & Bigel N.V. Principles of constructing a sys? tem for remote and autonomous control of a mining dump truck. Gornaya promyshlennost, 2013, (4), pp. 8. (In Russ.).

7. Official website of Modular Mining Systems. Available at: https://www. modularmining.com/ru/ (accessed 15.11.2023).

8. Chicherin I.V., Fedosenkov B.A., Syrkin I.S., Sadovets V.Yu. & Dubinkin D.M. Wavelet transform apparatus in an automated control system for the move? ment of quarry unmanned vehicles. Izvestiya vysshikh uchebnykh zavedeniy. Gornyj zhurnal, 2021, (3), pp. 106-114. (In Russ.). DOI: 10.21440/0536-1028- 2021-3-106-114.

9. Chicherin I.V., Fedosenkov B.A. Formation of signals of current trajectories in an automated modal control system for the movement of unmanned vehicles in open-pit mining // Bulletin of the Astrakhan State Technical University. Series: Management, computer technology and information science. 2021. No. 4. P. 35-44. (In Russ.). DOI: 10.24143/2072-9502-2021-4-35-44.

10.Chicherin I.V., Fedosenkov B.A. Dynamic modal control of the movement of unmanned vehicles in open-pit mining // Earth Sciences and Subsoil Use. 2021. Vol. 44, No. 3(76). pp. 271-284. (In Russ.). DOI: 10.21285/2686-9993- 2021-44-3-271-284.

11. Voronov Yu.E., Voronov A.Yu., Dubinkin D.M. & Maksimova O.S. Dispatch? ing in truck-shovel systems with unmanned transport at open-pit mines. Ugol’, 2023, (9), pp. 75-83. (In Russ.). DOI: 10.18796/0041-5790-2023-9-75-83.

12. Voronov A.Yu., Dubinkin D.M., Voronov Yu.E. Review of dispatch models for quarry vehicles. Gornaya promyshlennost’, 2022, (6), pp. 111-121. (In Russ.). DOI: 10.30686/1609-9192-2022-6-111-121.

13. Chicherin I.V., Fedosenkov B.A., Dubinkin D.M. & Zhenbo W. The wavelet transforms technique in the computer-aided system for controlling the quarry unmanned vehicles. E3S Web of Conferences. VIth International Innovative Mining Symposium, Kemerovo, 19–21 October 2021, Vol. 315. Kemerovo, EDP Sciences, 2021, 03022. 14.Chicherin I.V., Fedosenkov B.A., Dubinkin D.M. & Zhenbo W. Developing the concept of autonomous control of the quarry vehicles movement. E3S Web of Conferences. VIth International Innovative Mining Symposium, Ke? merovo, 19–21 October 2021, Vol. 315. Kemerovo, EDP Sciences, 2021, 03023. DOI: 10.1051/e3sconf /202131503023.

15. Voronov A.Yu., Voronov Yu.E., Syrkin I.S., Nazarenko S.V. & Yunusov I.F. A review of unmanned haulage systems at open-pit mines. Ugol’, 2022, (S12), pp. 30-36. (In Russ.). DOI: 10.18796/0041-5790-2022-S12-30-36. 16. Shelegeda B.G., Kornev M.N., Pogorzhelskaya N.V., Russiyan S.A. & Neklyu? dova V.L. Digitalization of the open method of coal mining based on a struc? tural shift in the technological structure. Vestnik NGUEU, 2019, (2), pp. 226-242. (In Russ.). DOI: 10.34020/2073-6495-2019-2-226-242.

17. Official website of Caterpillar. [Electronic resource]. Available at: https:// www.caterpillar.com/ru.html (accessed 15.11.2023).

18. What is distributed computing? Amazon Web Services. [Electronic re? source]. Available at: https://aws.amazon.com/ru/what-is/distributed-com? puting/ (accessed 15.11.2023).

19. Nagovitsyn O.V. & Lukichev S.V. Mining and geological information sys? tems, scope and design features. Gornyj informatsionno-analyticheskij zhurnal, 2016, (7), pp. 71-83. (In Russ.).

20. Tolmachev A. How ETL processes help analyze big data. [Electronic re? source]. Available at: https://practicum.yandex.ru/blog/chto-takoe-etl/ (accessed 15.11.2023).

Acknowledgements

This work was financially supported by the Ministry of Science and Higher Education of Russian Federation under Agreement ¹ 075-15-2022-1198 dated 30.09.2022 with the Gorbachev Kuzbass State Technical University on complex scientific and technical program of full innovation cycle: “De? velopment and implementation of complex technologies in the areas of exploration and extraction of solid minerals, industrial safety, bioremedia? tion, creation of new deep conversion products from coal raw materials while consistently reducing the environmental impact and risks to human life” (the “Clean Coal – Green Kuzbass” Integrated Scientific and Techni? cal Programme of the Full Innovation Cycle) as part of implementing the project “Development and creation of an unmanned shuttle-type mine truck with a payload of 220 tonnes” in terms of research, development and experimental-design work.

For citation

Syrkin I.S., Dubinkin D.M.& Sadovets V.Yu. Justification of the circuit design of a digital dispatch system for a coal open-pit mines. Ugol’, 2023, (S12), pp. 20-31. (In Russ.). DOI: 10.18796/0041-5790-2023-S12-20-31.

Paper info

Received November 1, 2023

Reviewed November 15, 2023

Accepted November 30, 2023