Determining Optimum Location Places for Clutch Couplings in Hydrostatic and Mechanical Transmissions of Wheeled Tractors

<- Back to II. Mechanical Engineering & Physics Vol. 7

Cite the paper

Taran I.O. & Bondarenko A.I. (2016). Determining Optimum Location Places for Clutch Couplings in Hydrostatic and Mechanical Transmissions of Wheeled Tractors . Mechanics, Materials Science & Engineering, Vol 7, pp. 68-75, doi:10.13140/RG.2.2.35672.90888

Authors: Taran I.O., Bondarenko A.I.

ABSTRACT. Using a technique of Hooke-Jeeves, constructed partial criteria, and determined generalized criterion in terms of emergency braking of wheeled tractors the paper determines optimum location place for clutch couplings in hydrostatic and mechanical transmissions of wheeled tractors operating by means of “input differential” and “output differential” schemes. Recommendations concerning changes in relative parameter to control hydraulic machines with hydrostatic and mechanical transmission in the process of emergency braking of wheeled tractors to maintain working capacity of transmissions have been formulated.

Keywords: wheeled tractor, hydrostatic and mechanical transmissions, clutch coupling, emergency braking

DOI 10.13140/RG.2.2.35672.90888

References

[1] Bondarenko, A.I. (2015) Scientific Basis of the Theory of Vehicles Braking With Stepless Hydrostatic Mechanical Transmissions // Austrian Journal of Technical and Natural Sciences, «East West» Association for Advanced Studies and Higher Education GmbH. Vienna (Austria). –  # 1 – 2. – Pp. 124 – 127.

[2] Bondarenko, A.I. (2014), Samorodov, V.B. Features of Power Flow Distribution in a Closed Circuit of Hydrostatic Mechanical Transmissions // Zbior Raportow Naukowych. Wykonane na Materiałach Miedzynarodowej Naukowo-Praktycznej Konferencji «Inżynieria i Technologia. Osiągnięć, Projekty Hipotezę», 29 – 30 December 2014, Krakow, Poland / Sp. z o.o. «Diamond Trading Tour». – Warszawa: Wydawca: Sp. z o.o. «Diamond Trading Tour», 2014.  –  Pp. 59 – 70. 

[3] Bondarenko, A.I. (2014), Mittsel, M.O., Kozhushko, A.P. Laboratory Stand for Research of the Workflow in Hydrostatic Mechanical Transmissions // Materials of the IX International Research and Practice Conference «European Science and Technology», 24 – 25 December 2014, Munich,  Germany / «Strategic Studies Institute». – Munich: «Strategic Studies Institute», 2014. – Vol. II. –  Pp. 289 – 295.

[4] Bondarenko, A.I. (2015) Dynamics of the braking process wheeled tractors with hydrovolumetric-mechanical transmission: Monograph. – Kharkiv: published by «Fedorko». – 220 pp.

[5] Samorodov, V.B., Taran, I.A. (2012) Analysis of the distribution power flow considering the efficiency of hydraulic continuously variable two-flow hydrovolumetric-mechanical transmission with differential output // The bulletin of the National Technical University “KhPI”. – Vol. 64. – Pp. 3 – 8.

[6] Taran, I.O. (2012) Laws of power transmission on branches of double-split hydrostatic mechanical transmissions // Naukoviy visnyk NGU. – Dnipropetrovsk: SHEI «NMU». – #2. – Pp. 69 – 75.

[7] Taran, I.O. (2013) System of integral stochastic criteria for transmissions of transport vehicles // Naukoviy visnyk Khersons’koi derzhavnoi mors’koi akademii. – Kherson: Kherson state maritime academy. – # 2 (9). – Pp. 277 – 283.

[8] Taran, I.O. (2012) Transmission of mine locomotive: Monograph. – Dnipropetrovsk: published by SHEI «NMU». – 256 pp.

[9] Taran, I.O. (2013) Automated analysis of the distribution of power flow transmission locomotive // Ugol’ Ukraine. – #12. – Pp. 34 – 38.

[10] Samorodov, V.B., Bondarenko, A.I. (2014) synthesis of hydrostatic mechanical transmission of wheeled tractors for agricultural purposes // Eastern European Scientific Journal: Düsseldorf (Germany): Auris Verlag. –  # 6. – Pp. 280 – 284.

[11] Taran I.O., Kozhushko A.P., Substantiating of Rational Law of Hydrostatic Drive Control Parameters While Accelerating of Wheeled Tractors with Hydrostatic and Mechanical Transmission, Mechanics, Materials Science & Engineering Journal, Vol. 6, Magnolithe GmbH, Austria, DOI: 10.13140/RG.2.1.3590.9362

[12] Hao Sun, Harald Aschemann, Robust Inverse Dynamics Control for a Hydrostatic Transmission with Actuator Uncertainties, 6th IFAC Symposium on Mechatronic Systems, IFAC Proceedings Volumes, Volume 46, Issue 5, 2013, Pages 116-124, DOI: 10.3182/20130410-3-CN-2034.00032

[13] Horst Schulte, Control-oriented modeling of hydrostatic transmissions considering LEAKAGE losses, 3rd IFAC Workshop on Advanced Fuzzy and Neural Control, IFAC Proceedings Volumes, Volume 40, Issue 21, 2007, Pages 103-108, DOI: 10.3182/20071029-2-FR-4913.00018

https://mmse.xyz/Papers/ID201610181.pdf

Creative Commons Licence
Mechanics, Materials Science & Engineering Journal by Magnolithe GmbH is licensed under a Creative Commons Attribution 4.0 International License.
Based on a work at www.mmse.xyz.