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Название Thermal model of cone drill bit bearing with air flushing
DOI 10.17580/em.2022.02.16
Автор Valiev N. G. O., Simisinov D. I., Afanasyev A. I.
Информация об авторе

Ural State Mining University, Yekaterinburg, Russia:

Valiev N. G. O., Professor, Doctor of Engineering Sciences
Simisinov D. I., Associate Professor, Candidate of Engineering Sciences, 7sinov@mail.ru
Afanasyev A. I., Professor, Doctor of Engineering Sciences

Реферат

Cone drill bits are used in various-purpose drilling in difficult geotechnical conditions, as well as in drilling-and-blasting in open-pit mining. The reliability of the drill bits depends on the rock-breaking source and on the bearing support. One of the causes of low reliability of a drill bit is the failure of the retaining ball bearing due to destruction of roller path and journal of the bearing under high contact and bending stresses. Based on the general provisions of similarity theory, a physical model of the retaining bearing of a roller bit was created. The test data of the bearing on a friction and wear testing machine are presented as the dependences of the bearing temperature, friction moment and clearances on time. The dependence of the bearing temperature on the thermal power is determined. In extreme conditions of lubricant shortage, the contact stresses in the bearing rings and balls and the temperature significantly exceed the permissible values. The methodology is proposed to be used in development of a cone rock bit drilling tool. The article discusses the method of determining the moment of friction of the bearing of a cone drill bit. The design of bearings without retainers features increased clearances. To determine the moment of friction under these conditions, a simple design of the test bench is proposed, which includes a load and a counterweight connected by a thread thrown over a rolling bearing. The calculations to determine the reduced moment of friction of the rolling bearing in the conditions of the test bench are described.

The study was carried out under the state contract between the Ministry of Science and Higher Education of the Russian Federation and the Ural State Mining University.

Ключевые слова Roller cone bit, drilling bit bearing, thermal conductivity of support elements, heat transfer in leg, ball and roller bearings
Библиографический список

1. Zhidovtsev N. A., Kershenbaum V. Ya., Ginzburg E. S. et al. Longevity of rolling cutter. Moscow : Nedra, 1992. 272 p.
2. Schroder J., Pasquale M. D., Richards A. Bearing innovations extend roller-cone bit life. Oil and gas journal. 2016. Vol. 114, No. 6. pp. 50–55.
3. Regotunov A., Sukhov R., Bersenyov G. About transition processes in blasthole drilling at quarries. E3S Web of Conferences: 18, Yekaterinburg. 01008. DOI: 10.1051/e3sconf/202017701008
4. Bogomolov R. M. Analysis of techniques of parts production and rollingcutter drill bits assembling and their influence on the tool operational capacity. Equipment and technologies for the oil and gas complex. 2020. No. 4. pp. 8–12.
5. Huang Z., Li G. Failure analysis of roller cone bit bearing based on mechanics and microstructure. Journal of Failure Analysis and Prevention. 2018. Vol. 18, No. 2. pp. 342–349.
6. Zakirov N. N. Technological aspects of improving the reliabilityand durability of drilling equipment components. Oil and gas studies. 2016. No. 4. pp. 56–58.
7. Kuliev S. M., Esman B. I., Gabuzov G. G. Thermal Conditions in Borehole Drilling. Moscow : Nedra, 1968, 186 p.
8. Zakirov N. N. Technikal and technological elements of life cycle of roller bits. Tyumen : TIU, 2018. 140 p.
9. Shigin A. O., Gilev A. V. Methods to calculate fatigue strength as a major factor of roller bit durability. Vestnik Irkutskogo gosudarstvennogo tekhnicheskogo universiteta. 2012. No. 3(62). pp. 22–27.
10. Pelfrene G., Stab O., Tilleman D. et al. Modelling the 3D Bit-Rock Interaction Helps Designing Better PDC Bits. SPE/IAD International Drilling Conference and Exhibition. 2019. DOI: 10.2118/194134-MS
11. Slipchuk A., Kuk A. Evaluation of the permissible moment in a roller cone drill bit providing the prescribed reliability of work. Ukrainian Journal of Mechanical Engineering and Materials Science. 2018. Vol. 4, No. 1. pp. 116–124.
12. Han C., Yu C., Li Y., Yan J. Mechanical performance analysis of hollow cylindrical roller bearing of cone bit by FEM. Petroleum. 2015. Vol. 1, No. 4. pp. 388–396.
13. Shevchenko A. N., Krasnoshtanov S., Ruuz M. V., Perfilev V. Analysis of the roller bit lubrication system. IOP Conference Series: Earth and Environmental Science. 2020. Vol. 408, No. 1. 012061.
14. Simisinov D. I., Afanasiev A. I., Shestakov V. S., Valiev N. G. Loading of bearing retaining pin of tricone drill bit. Gornyi Zhurnal. 2020. No. 12. pp. 64–66. DOI: 10.17580/gzh.2020.12.14
15. Serikov D. Yu., Blinkov O. G., Panin N. M., Shigin A. O. I Perfection of support structures of rolling cutter drilling tool. Equipment and technologies for the oil and gas complex. 2019. No. 4(112). pp. 29–33.
16. Gorsky A. N., Rusin Yu. S., Ivanov N. R., Sergeeva L. A. Design of Electromagnetic Elements of Secondary Supply Sources. Moscow : Radio i svyaz, 1988. 176 p.
17. Lykov A. V. Heat Transfer and Mass Exchange. Moscow : Energiya, 1972. 560 p.
18. Chichinadze A. V. Thermal dynamics of friction. Moscow : Nauka, 1970. 171 p.
19. Juraev R. U., Merkulov M. V., Khatamova D. N., Safarova M. D. Improvement of the temperature regime of the rock- destruction tool when drilling wells with air cleaning. Gornyi vestnik Uzbekistana. 2020. No. 2(81), pp. 67–71.

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