Rubel A.O., Kuraieva O.V. Research and development of the structures of highly loaded bunton dampers to decrease dynamic effects in the "vehicle–reinforcement" system

Details

Parent Category: Geo-Technical Mechanics, 2022

Category: Geo-Technical Mechanics, 2022, № 162

Geoteh. meh. 2022, 162, 97-111

https://doi.org/10.15407/geotm2022.162.097

 

RESEARCH AND DEVELOPMENT OF THE STRUCTURES OF HIGHLY LOADED BUNTON DAMPERS TO DECREASE DYNAMIC EFFECTS IN THE "VEHICLE–REINFORCEMENT" SYSTEM

¹Rubel A.O., ²Kuraieva O.V.

¹State Enterprise «United Company «Ukrvuglerestrukturyzatsiya», ²Limited Liability Company «Pfizer Ukraine»

UDC 622.6:622.674:622.673.1

Language: English

Abstract. The authors study the horizontal loads arising from the movement of vehicles under the action of dissipative forces (torsion of ropes, aerodynamic forces, loading the vehicle with eccentricity in the frontal and lateral planes) which act on rope-profile guides (hereinafter referred to as RPGs or guides). The structures of damper buntons are developed that reduce vibrations by the interaction of guides with damper elements of buntons of various structures, which are located at the meeting point of vehicles and further along the shaft. The step of limiting buntons at the meeting point of vehicles in the middle part of the shaft has minimum value, and then the step increases stepwise and further remains constant. A kinematic connection of the RPG and the bunton in the form of a bunton leg and connecting inserts is developed, which allow the guide to move up and down and bend to a safe amount in the frontal and lateral directions; then the horizontal load is damped with the help of bunton dampers and the bunton structure. Console buntons, located along the shaft depth with a constant step, are equipped with dampers, which consist of rubber inserts with soft metal plates, assembled using bolted connections on a console bunton. At the meeting point of vehicles in the middle part of the shaft, the console bunton dampers have a more complex structure and consist of shock absorbe rs built into the box-shaped bunton which rod is built into the bunton leg, which moves in the guides and damps the load. Bunton dampers consist of a shock absorber and a built-in pneumatic cylinder and have a greater absorbing effect. The development of various structural solutions for buntons with dampers for different shaft sections and a kinematic connection for a bunton operation with rope-profile guides makes it possible to achieve:
– high reliability during RPG operation;
– increased service life due to a significant decrease in the level of dynamic effects;
– reduced labor intensity of maintenance and operation, compared to rigid reinforcement;
– reduced metal consumption compared to rigid reinforcement.
Keywords: mine vertical shafts, rope-profile guides, console-damper buntons, pneumatic cylinder, shock absorbers, draft gears, frame buntons, horizontal forces in the frontal and lateral directions.

REFERENCES

1. Baklashov, I.V. (ed.) (1989), “Manual for the structure and installation of rigid shaft equipment of vertical shafts of mines and mines (to SNiP II-94-80)”, [Manual for the structure and installation of rigid shaft equipment of vertical shafts of mines and mines], Nedra, Moscow, Russia.

2. USSR Ministry of Coal Industry on 08/09/89 and Gosgortekhnadzor USSR 22.02.82, (1982), "Safety standards for the structure and operation of rope guides of multi-rope winding installations", approved by the USSR Ministry of Coal Industry on 08/09/89 and Gosgortekhnadzor of the USSR on 02/22/82 and "Safety Standards for the structure and operation of rope guides of single-rope winding installations", Makeevka, Donbass.

3. Voloshin, A.I., Rubel, A.A. and Rubel, A.V. (2016), “Shaft equipment of vertical mine shafts and methods of refining” Geotechnical mechanics: International collection of science practices, no. 126, pp. 137-145.

4. Rubel, A.O. (2017), “Research of existing structures of tiers of shaft equipment of vertical shafts and development of tier schemes with rope-profile guides” Geotechnical mechanics: International collection of science practices, no. 134, pp. 211-227. https://doi.org/10.15407/geotm2017.134.211

5. Voloshin, A.I., Rubel, A.A. and Rubel, A.V. (2016), “Cantilever-damping buntons for the shaft equipment of vertical mine shafts” Geotechnical mechanics: International collection of science practices, no. 127 pp.89-98.

6. Ministry of Coal Industry of the USSR (1989), Instructions for the operation of steel ropes in mine shafts, Nedra, Moscow, Russia.

7. Minvugleprom of Ukraine (2010), Safety rules for coal mines: NPAOP 10.0-1.01-10. - Dijsnі vіd 22.03.2010. - Officially seen. [Regulatory document to the Minvugleprom of Ukraine. Standard], Kiev, Ukraine.

8. Rubel, A.A (2018), “Investigation and improvement of the structures of vehicle guides in the frontal direction”, Geo-Technical Mechanics. Journal of Collected Scientific Papers, no 141, pp. 211–227.  https://doi.org/10.15407/geotm2018.141.018

9. Prokopov, A. Yu. and Pleshko, M. S. (2002), “Improving the non-bunton reinforcement of vertical shafts” Mining Information and Analytical Bulletin, State Mining University (MSMU), no. 19. pp. 240-243, Moscow, Russia.

10. Rubel, A.A. and Rubel, O. V. (2018), “Investigation of various types of ropes and the choice of optimum type for the structures of rope-profile guides”, Geo-Technical Mechanics. Journal of Collected Scientific Papers, no 142, pp. 121–133. https://doi.org/10.15407/geotm2018.142.121

11. Draft gear TF-880 and SL-76/ https://www.minerent.com/products/dg_TF-880.php / https://www.minerent.com/products/ dg_SL-76.php

12. Draft gear Suzhou East Railway Co., Ltd. // http://www.eastrailway.com/plus/view.php?aid=216&PHPSESSID=679074bef207d9658b5ab5ce4a67ed79

About authors:

Rubel Andrii Oleksandrovych, Candidate of Technical Sciences (Ph.D.), Chief Power Engineer, State Enterprise «United Company «Ukrvuglerestrukturyzatsiya», Kyiv, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it.

Kuraieva Olena Viktorivna, Master of Science, LLC Pfizer Ukraine, Kyiv, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it.

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