SIMULATION MODELING OF RECUPERATIVE SPRING-HYDRAULIC FIFTH-WHEEL COUPLING OF FOREST TRACTOR WITH SADDLE TRAILER
Abstract and keywords
Abstract (English):
The importance of using timber road transport in the technological process of harvesting and hauling timber has been substantiated. The influence of the design flaws of fifth-wheel couplings on the safety indicators of the road train, its stability, productivity, and fuel consumption, which are manifested during the operation of timber tractors with semitrailers, has been revealed. The work of foreign authors aimed at improving the efficiency of using fifth-wheel couplings used in the designs of tractors with saddle trailer has been considered. The advantages of using the proposed recuperative spring-hydraulic fifth-wheel coupling device in a timber lorry train have been described. They consist in ensuring a simultaneous increase in the reliability of road train, recuperating energy of the working fluid, reducing the magnitude of dynamic loads, as well as ensuring favorable working conditions for the driver. On the basis of the developed mathematical and simulation functioning models of a timber tractor with a saddle trailer equipped with the proposed design of a recuperative spring-hydraulic fifth wheel coupling, computer experiments have been carried out, which made it possible to obtain the dependence of the influence of the inner diameter of the hydraulic cylinder, the stiffness of the springs used in the recuperative spring-hydraulic fifth wheel coupling on the longitudinal acceleration of the semitrailer and the average value of the recovered power. It was revealed that the optimal spring stiffness of the recuperative spring-hydraulic fifth wheel coupling, which is in the range from 150 to 200 kN/m, makes it possible to achieve the value of the average recovered power in the range from 7 to 8.4 kW

Keywords:
logging, timber haulage, logging tractor, saddle trailer, recuperative spring-hydraulic fifth wheel coupling, forest road, road train efficiency
Text
Text (PDF): Read Download
References

1. Posmet'ev, V. I. Perspektivnaya konstrukciya rekuperativnogo sedel'no-scepnogo ustroystva lesovoznogo tyagacha s polupricepom / V. I. Posmet'ev, V. O. Nikonov, V. V. Posmet'ev // Lesotehnicheskiy zhurnal. - 2019. - № 3 - S. 180-192. - Bibliogr.: s. 180-192 (25 nazv.).

2. Nikonov, V. O. Analiz konstruktivnyh osobennostey sedel'no-scepnyh ustroystv tyagachey s polupricepami / V. O. Nikonov, V. I. Posmet'ev, T. N. Fomin // Voronezhskiy nauchno-tehnicheskiy vestnik. - 2019. - T. 1, № 1 (27). - S. 20-32. - Bibliogr.: s. 20-32 (25 nazv.).

3. Nikonov, V. O. Analiz usloviy i ocenka effektivnosti ispol'zovaniya lesovoznyh avtomobiley v Rossiyskoy Federacii na sovremennom etape ee razvitiya / V. O. Nikonov, V. I. Posmet'ev / Voronezhskiy nauchno-tehnicheskiy vestnik. - 2020. - T. 2, № 2 (32). - S. 49-73. - Bibliogr.: s. 49-73 (27 nazv.).

4. Nikonov, V. O. Ocenka sostoyaniya lesovoznyh dorog v RF, ispol'zuemyh dlya vyvozki lesomaterialov avtomobil'nym transportom / V. O. Nikonov, V. I. Posmet'ev, A. V. Avdyuhin / Voronezhskiy nauchno-tehnicheskiy vestnik. - 2020. - T. 2, № 2 (32). - S. 74-84. - Bibliogr.: s. 74-84 (22 nazv.).

5. Reboh Y. Failure analysis of fifth wheel coupling system / Y Reboh, S. Griza, A. Regyly, T. R. Strohaecker // Engineering Failure Analysis 15 (2008) 332-338. Bibliogr.: 7 p. (10 titles). - DOIhttps://doi.org/10.1016/j.engfailanal.2007.02.007.

6. Dohlberg E. Influence of the fifth-wheel location on heavy articulated vehicle handling / Eric Dahlberg, Johan P. Wideberg // Proceedings of 8th International Sumposium on Heavy Vehicle Weights and Dimensions, Johannesburg, 14-18 March, 2004 - 10 p. Bibliogr.: 10 p. (9 titles).

7. Ogorodnikov V. A. Energy criterion of the reliability of structural elements in vehicles / V. A. Ogorodnikov, N. S. Grechanyuk, A. V. Gubanov // Materials Science, Vol. 53, № 5, March, 2018. - pp. 645-650. Bibliogr.: pp. 650 (12 titles). - DOIhttps://doi.org/10.1007/s11003-018-0119-x.

8. Qing Zhang Failure analysis of the fifth wheel couplings utilized in heavy semi-trailer tractors / Qing Zhang, Shuo Wei, Youming Chen // Engineering Failure Analysis 109 (2020) 104352. - 12 p. Bibliogr.: 10 p. (16 titles). - DOIhttps://doi.org/10.1016/j.engfailanal.2019.104352.

9. Fernandes P. J. L. Examination of a failed fifth wheel coupling / P. J. L. Fernandes // Engineering Failure Analysis, Vol. 5, № 1. pp. 29-33, 1998. Bibliogr.: pp. 29-33.

10. Scotnikov G. I. Increasing the stability of the articulated lorry at braking by locking the fifth wheel coupling / G. I. Scotnikov, M. M. Jileykin, A. I. Komissarov // IOP Conf. Series : Materials Science and Engineering 315 (2018) 012027. - 17 p. Bibliogr.: 17 p. (6 titles). - DOIhttps://doi.org/10.1088/1757-899X/315/1/012027.

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. 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.

16. 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.

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

18. 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.

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?