Design of a Hydraulic Pump of Tractor for Manufacturing with 3D printer Technology
Keywords:
Double helical gear,, Hydraulic,, Pump,, stresses,, CDF.Abstract
In this work, a couple of spur gears design was changed by two double- helical gears design with maintaining other parts in the same size approximately for a hydraulic pump of agricultural tractor. The main purpose of this attempt was to obtain a new hydraulic pump with better specifications and performance. The new elements of the pump were designed using 3D Solid Works software then the stresses analyses and CFD analyses were archived using ANSYS software. The results showed a better flow rate of the hydraulic fluid by about 17%. This reflects the success of this idea where the flow rate of the new design was much higher compared with spur gear pump. This will conclude that the new design led to improve the pump performance. Moreover, the new pump overcomes the problems that usually appear in spur gears such as noise, vibration fracture. However, this design considers one of the most difficult parts in manufacture process therefor, it was recommended to fabricate it with3D printers
Downloads
References
A.A.M.A. Al-Zaidi, "Displaying of Tractor Performance," International Journal of Mechanical Engineering & Technology (IJMET), Vol. 10 (2), pp.1655-1661, 2019.
C. Dong, K. Cheg, K. Hu, & W.Q. Hu, “Dynamic Modeling Study of the Slope Steering Performance of Articulated," Advances in mechanical engineering Journal,Vol9(7), PP. 1-26, 2017. DOI: https://doi.org/10.1177/1687814017712418
R.Wear, Z. Majdan, Z.Tkáč, J. Kosiba , R. Abrahám, J. Jablonický, Ľ. Hujo, M. Mojžiš, P. Ševčík, M. Rášo, "Evaluation of tractor biodegradable hydraulic fluids on the basis of hydraulic pump," Research in Agricultural Engineering Journal. Vol.59(3), pp.75-82,2017. DOI: https://doi.org/10.17221/18/2012-RAE
N. Warkade, V. Prajapat, N. Manik ,Umashankar &U. Pardhi U,"Hydraulic System in Tractor. Astudent project report". Submitt Jawaharlal Nehru krishi Viswavidyalaya College of Agricultural Engineering Jabalpur.2014
I.G.Ghionea, N.Ionescu, A. Chiona, S. Cukovic, S. Tonoiv, M. Catana & I . Jamshed, "Computer Aided parametric Design of Hydraulic Pumps," Series Applied mathematics, Mechanics and engineering, Vol.60, (1) PP. 113-123, 2017.
F. DScheaua, "Assembly Design Optimization for Gear Pump hydraulic Units," Journal of Industrial Design and Engineering Graphics, Vol.7 (1), pp.15-18, 2016.
G.M. Maitra, Handbook of Gear Design, Second Edition, published by Tata McGraw Hill Publishing Company Limited, 1994.
A.S. Heisler, J.J Moskwa. &F. Forriczak F, "Simulated Helical Gear Analysis Using a New CFD Approach," Proceedings of the ASME Fluid Engineering Division Summer Meeting in Vail- Colorado- USA, 2009. DOI: https://doi.org/10.1115/FEDSM2009-78472
M.K.Patil, V.T.Table, S.N. Klan and A.M. Badabhe, "Design & Stress analyses of Double Helical Gear by Using ANSYS and its Material Optimization,". International Engineering Research Journal, Vol.3 (4). pp.6641-6646, 2021.
D. Levchenko, "Design of Hydraulic Pump for Constriction with Additive Manufacturing Tools". Ph.D. thesis submitted to Saimaa University of Applied Science Technology, Lappeenranta, Mechanical Engineering and production Technology, 2019.
S.M. Kamble &A. Chaubey, "Stress Analyses of Herringbone Gar by Using FEA," International Journal of Engineering Research and Technology. Vol. 2(10). pp.3488-3491, 2013.
D. Ramakrishna,Rao, S.S. Malleswarrao "Design Modeling and Analyses of Herringbone Gear using ANSYS," International Journal of Engineering Trends and Application. Vol.4(3). pp.23-28, 2016.
V. Lad & L. Singh, "Design Modelling and Analysis of Hhelical Gear Using Catia, Ansys and Agma Parameters," International Journal of Mechanical Engineering and Technology (IJMET) Vol.7(4), pp.221–226, Aug 2016.
R. Roy,K. Chatterjee, S.Banerjee,P.H. Roy & A. Tiriya, "Modelling and analysis of herringbone Gears by Using ANSYS," Journal of Xi'an University of Architecture & Technology,Vol.XIII(6).pp. 483-486, 2021.
R.C. Juvinall & K.M. Marshek," Fundamentals of Machine Component Design," University of Texas press. Fifth Edition,2012.
M.Rundo, "Models for flow Rate Simulation in Gear Pumps: A review," Energies MDPI Journal, Vol.10(11) pp. 1-33,2017. DOI: https://doi.org/10.3390/en10091261
Published
How to Cite
Issue
Section
Copyright (c) 2022 Ali Al-Zaidi
This work is licensed under a Creative Commons Attribution 4.0 International License.