SIMULATION MODEL FOR ESTIMATION OF FOREST TRUCK PERFORMANCE EQUIPPED WITH RECUPERATIVE SPRING-HYDRAULIC FIFTH-WHEEL COUPLING
Abstract and keywords
Abstract (English):
The current state and advantages of timber road transport in comparison with other types of transport used for hauling timber are presented. The factors influencing the rational choice of the rolling stock of timber trucks are given. The efficiency of using timber trucks with trailers for transportation of timber has been substantiated. Difficult conditions for the transportation of timber along timber roads, which affect the operability of the towing devices of timber trucks with trailers and the efficiency indicators of timber trucks in general, have been considered. A brief analysis of the work of foreign scientists in the field of increasing vehicle efficiency equipped with various towing devices is presented. A perspective scheme of a recuperative pneumo-hydraulic towing hitch has been proposed to eliminate the identified shortcomings of the considered designs of towing hitch devices. A mathematical model and a computer program based on it have been developed to assess the operability and efficiency of the proposed device, as well as to determine its optimal design parameters. On the basis of the performed computer experiments, it was revealed that the recuperative pneumo-hydraulic towing device allows recuperating the power of 4.7 kW at the maximum acceleration of the trailer relative to the timber truck 0.94 m/s2 when moving a timber truck with a trailer on a model timber road. It was found that the optimal diameter of the plunger cavity of the device, at which the recuperation system provides balanced effective damping, is 49 mm. It has been established that the maximum recuperative power is achieved at a speed of movement of a timber truck with a trailer equal to 32 km/h

Keywords:
timber truck, timber, trailer, recuperative pneumo-hydraulic towing hitch, efficiency, working fluid energy, pneumohydraulic accumulator
Text
Text (PDF): Read Download
References

1. Posmet'ev, V. I. Rezul'taty komp'yuternogo modelirovaniya rekuperativnogo tyagovo-scepnogo ustroystva lesovoznogo avtomobilya s pricepom / V. I. Posmet'ev, V. O. Nikonov, V. V. Posmet'ev // Lesnoy zhurnal. - 2019, № 4. - S. 108-123. - Bibliogr.: s. 108-123 (20 nazv.). - DOIhttps://doi.org/10.17238/issn0536-1036.2019.4.108.

2. Nikonov, V. O. Rekuperaciya gidravlicheskoy energii v tyagovo-scepnom ustroystve lesovoznogo avtomobilya s pricepom / V. O. Nikonov, V. I. Posmet'ev, K. A. Yakovlev // Lesotehnicheskiy zhurnal. - 2018. - № 4. - S. 230-239. - Bibliogr.: s. 230-239 (10 nazv.). - DOIhttps://doi.org/10.12737/article_5c1a323b1d0433.96668845.

3. Nikonov, V. O. Analiz konstruktivnyh osobennostey tyagovo-scepnyh ustroystv gruzovyh avtomobiley s pricepami / V. O. Nikonov, V. I. Posmet'ev, R. V. Zhuravlev // Voronezhskiy nauchno-tehnicheskiy vestnik. - 2018. - T. 4, № 4 (26). - S. 13-24. - Bibliogr.: s. 13-24 (17 nazv.).

4. Posmet'ev, V. I. Analiz effektivnosti tradicionnyh i perspektivnyh konstrukciy scepnyh ustroystv pricepov s transportnymi sredstvami / V. I. Posmet'ev, V. O. Nikonov, I. V. Siz'min, A. V. Latynin // Voronezhskiy nauchno-tehnicheskiy vestnik. - 2020. - T. 1, № 1 (31). - S. 58-86. - Bibliogr.: s. 58-86 (44 nazv.).

5. Matikainen V. Semi-automatic coupling of an agricultural tractor and a trailer / V. Matikainen, J. Backman, A. Visala // Proceedings of the 10th World Congress The International Federation of Automatic Control Cape Town, South Africa, August 24-29, 2014. - pp. 11583-11588. Bibliogr.: pp. 11588 (14 titles).

6. Vladut V. Verification of stress by fem analysis / mechanical testing of agricultural mobile aggregates coupling devices / V. Vladut, E. Maican, L. Apostol, N. Ungureanu, I. Dumitru, R. Oprescu // Inmateh - Agricultural Engineering, 2018, - Vol. 54, № 1. - pp. 39-46. Bibliogr.: pp. 45-46 (10 titles).

7. Gamaunov P. Increasing transverse stability of multi-purpose tractor-transport trains by the use of a traction-coupling device changing kinematic movement parameters / P. Gamaunov, A. Gamaunov, S. Istomin // ARPN Journal of Engineering and Applied Sciences, 2019, Vol 13, № 8. - pp. 1612-1619. Bibliogr.: pp. 1618-1619 (20 titles).

8. Kersys A. Dynamics of loadings acting on coupling device of accelerating auto-train / A. Kersys, N. Kersiene // Vibroengineering. Journal of Vibroengineering, 2010, Vol. 12(3). - pp. 305-313. Bibliogr.: pp. 313 (7 titles).

9. Stroganov Yu. N. Improving design safety of tractor-trailers by upgrading towing couples / Yu. N. Stroganov, O. Yu. Stroganova, O. G. Ognev // IOP Conf. Series : Materials Science and Engineering 632 (2019) 012028. - 10 p. Bibliogr.: 10 p. (16 titles). - DOIhttps://doi.org/10.1088/1757-899X/632/1/012028.

10. Wieckowski D. Influence of the vertical load exerted by the trailer on the coupling device on towing vehicle is steer ability and stability / D. Wieckowski, T. Pusty, P. Jedrys // IOP Conf. Series : Materials Science and Engineering 148 (2016) 012031. - 10 p. Bibliogr.: pp. 9-10 (8 titles). - DOIhttps://doi.org/10.1088/1757-899X/148/1/012031.

11. Grigor'ev, Yu. D. Metody optimal'nogo planirovaniya eksperimenta: lineynye modeli : uchebnoe posobie / Yu. D. Grigor'ev. - Sankt-Peterburg : Lan', 2015. - 320 s. - Bibliogr.: s. 292-304.

12. Kosarev, E. L. Metody obrabotki eksperimental'nyh dannyh : uchebnoe posobie / E. L. Kosarev. - 2-e izd. - Moskva : FIZMATLIT, 2008. - 208 s.

13. Bochkarev, S. V. Planirovanie i obrabotka rezul'tatov eksperimenta : uchebnik / S. V. Bochkarev, T. V. Vasil'eva, A. L. Galinovskiy, D. A. Dadenkov, V. I. Kolpakov, A. M. Kostygov. - Staryy Oskol : TNT, 2020. - 508 s. - Bibliogr.: s. 506-507.

14. Sidnyaev, N. I. Teoriya planirovaniya eksperimenta i analiz statisticheskih dannyh : uchebnoe posobie dlya magistrov / N. I. Sidnyaev. - M. : Izdatel'stvo Yurayt ; ID Yurayt, 2012. - 399 s. - Bibliogr.: s. 396-398.

15. Komlackiy, V. I. Planirovanie i organizaciya nauchnyh issledovaniy : uchebnoe posobie / V. I. Komlackiy, S. V. Loginov, G. V. Komlackiy. - Rostov-na-Donu : Feniks, 2014. - 208 s. - Bibliogr.: s. 202-207.

16. Izmailov, A. F. Chislennye metody optimizacii : uchebnoe posobie / A. F. Izmailov, M. V. Solodov. - M. : FIZMATLIT, 2005. - 304 s. - Bibliogr.: s. 294-296.

17. Morgunov, A. P. Planirovanie i analiz rezul'tatov eksperimenta : uchebnoe posobie / A. P. Morgunov, I. V. Revina ; Minobrnauki Rossii, Omskie gos. tehn. un-t. - Omsk : Izdatel'stvo OmGTU, 2014. - 347 s. - Bibliogr.: s. 334-336.

18. Sovetov, B. Ya. Modelirovanie sistem : ucheb. dlya vuzov / B. Ya. Sovetov, S. A. Yakovlev. - 3-e izd. pererab. i dop. - M. : Vyssh. shk., 2001. - 343 s. - Bibliogr.: s. 340-341.

19. Grebennikova, I. V. Metody matematicheskoy obrabotki eksperimental'nyh dannyh : uchebno-metodicheskoe posobie / I. V. Grebennikova. - Ekaterinburg : Izd-vo Ural. un-ta, 2015. - 124 s. - Bibliogr.: s. 117.

20. Panteleev, A. V. Metody optimizacii v primerah i zadachah : uchebnoe posobie / A. V. Panteleev, T. A. Letova. - 2-e izd., ispr., - M. : Vyssh. shk., 2005. - 544 s. - Bibliogr.: s. 543-544.


Login or Create
* Forgot password?