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Research of dynamic characteristics of the pressure regulator of axial piston pump

Authors: Tsyganov A.S., Perfilev A.V.
Published in issue: #7(24)/2018
DOI: 10.18698/2541-8009-2018-7-354


Category: Power, Metallurgic and Chemical Engineering | Chapter: Hydraulic Machines and Hydropneumatic units

Keywords: axial piston pump, pressure regulator, dynamic characteristics of the pressure regulator, mathematic simulation, MATLAB Simulink, dry friction
Published: 07.08.2018

The article examines the main dynamic characteristics of the pressure regulator of the axial piston pump. Mathematical simulation of the pump pressure regulator in the software package MATLAB Simulink is carried out. According to the results of mathematical modeling, such basic dynamic characteristics as discharge pressure, pump feed, slide valve travel and servo piston movement, without taking into account the effect of dry friction forces and with the effect of dry friction forces are obtained. Influence of dry friction forces on the main dynamic characteristics of the pressure regulator is considered. Recommendations for reducing the effect of dry friction forces on the basis of the results obtained are given.


References

[1] Aviatsionnye pravila AP-25. Normy letnoy godnosti transportnoy kategorii [Aviation rules AP-25. Airworthiness standards of transport category]. Leningrad, LII im. M.M. Gromova publ., 2014, 321 p.

[2] Shumilov I.S. Sistemy upravleniya rulyami samoletov [Aircraft rudder control system]. Moscow, Bauman Press, 2009, 469 p.

[3] Aipov R.S., Valishin D.E., Leont’yev D.S. Mathematical model of the plunger pump with a cylindrical linear induction motor in the drive. Nauchnyy zhurnal KubGAU [Scientific Journal of KubSAU], 2014, no. 96(02). Available at: http://ej.kubagro.ru/2014/02/pdf/40.pdf.

[4] Borovin G.K., Popov D.N. Mnogokriterial’naya optimizatsiya gidrosistem [Multicriteria optimization of hydrosystems]. Moscow, Bauman Press, 2007, pp. 55–65.

[5] Lewis E.E., Stern H. Design of hydraulic control systems. McGraw-Hill Book Company, 1962, 360 p.

[6] Popov D.N. Mekhanika gidro i pnevmoprivodov [Mechanics of hydro- and pneumatic drives]. Moscow, Bauman Press, 2002, 320 p.

[7] Shumilov I.S., Chursova L.V., Sedova L.S. Process fluids of aero-hydraulic systems and their properties. Mashinostroenie i komp’yuternye tekhnologii [Mechanical Engineering and Computer Science], 2014, no. 4. Available at: http://www.technomag.bmstu.ru/doc/705577.html.

[8] Avrunin G.A., Nazarov L.V., Maznichko V.A. Modern regulators for changing work volume of hydraulic machines. Zbіrnik naukovikh prats’, Serіya: galuzeve mashinobuduvannya, budіvnitstvo, 2009, vol. 1, no. 23, pp. 72–83.

[9] Kornyushenko S.I. Radial piston pump. Stroitel’naya tekhnika i tekhnologii, 2016, vol. 6, no. 122, pp. 50–51.

[10] Andreev M.A., Semenov S.E. Correction of regulator’s dynamic characteristics in axial piston pump with electric proportional control. Mashinostroenie i komp’yuternye tekhnologii [Mechanical Engineering and Computer Science], 2012, no. 12. Available at: http://www.technomag.bmstu.ru/doc/516044.html.