Development of the compensation method of pressure pulsation effect on the multi-stage hydraulic cylinder motion

Authors

DOI:

https://doi.org/10.15587/1729-4061.2014.28000

Keywords:

hydraulic drive, pulsation, effort, nonlinearity, throttle, law, motion, model, sealing, compensation

Abstract

An example of the hydraulic wrench application is a maintenance process, associated with the main circulation pump jack at a nuclear power plant. Mathematical model of the hydraulic drive with two coaxial hydraulic cylinders is investigated to solve the problem of uncontrolled changes in the hydraulic drive system characteristics. The mathematical model considers the parallel connection of discharge chambers, nonlinear flow from the one-piston pump, fluid compressibility, the friction force between the actuator components. The drive operation is investigated at a full rotation of the feed pump crank. The system includes a throttle on the drain line in order to overcome negative hydrodynamic processes. The characteristics of the drive are investigated, and the throttle characteristics are defined to overcome pulsation. The values of the throttle opening area are determined for each time point, at a constant speed of the drive. Obtained matrix values are regarded as a law, and the speed becomes a calculated value, used to verify the results. Calculations have confirmed the possibility of providing the drive rod velocity, which is close to constant. Further development of the results provides a synthesis of the law of the throttle closing changes. It will provide the technological feasibility for manufacturing and ensure linear, close to constant, effort, generated by the hydraulic drive.

Author Biographies

Всеволод Петрович Чуйко, Sumy State University

PhD student Department of Applied hydroaeromechanics

Сергій Павлович Кулініч, Sumy State University

Associate professor, Candidate of technical science

Department of Applied hydroaeromechanics

References

  1. Kulinich, S., Chuiko, V. (2013). Analiz vplyvu neliniinoi podachi odnoplunzhernoho nasosu na robotu hidravlichnoho dvyhuna ,Visnyk Sumskoho derzhavnoho universytetu, 4, 102–107. Available at: http://essuir.sumdu.edu.ua/handle/123456789/33742

    Marcinkovskyi, V., Vorona, P. (1987). Nasosy atomnyh elektrostanciy (Pumps of nuclear power plants),Moscow, 256. Available at: http://lib.sumdu.edu.ua/library/DocDescription?doc_id=568

    Tlumienil pulsacji w systemach hydraulicznych (1997). Hydraulika i Pneummatyka, 4, 17–18.

    Monville, J.-M., Loiseau, V., Faus, J., Alegre, M. (2008). Patent PCT/FR2007/051478 [FR], B 23 P 19/06, WO 2008/00095 A1. Device for tensioning threaded rods /; owner AK-TIEBOL AGETSKF Hornsgatan 1, S-415 50 Goteborg № 0605924; app. 30.06.2006; pub. 03.01.2008. Available at: http://patentscope.wipo.int/search/en/detail.jsf?docId=WO2008000995

    Gejmur, А. P. (1994). Patent 2092303 [RU] B25 В 29/02, Device for Assembly and disassembly of flange-joint fasteners of high-pressure vessels /; owner Osoboe konstruktorskoe bjuro mashinostroenija. № 94008246/28 ; app. 10.03.1994. Available at: pub. 10.10.1997. http://bankpatentov.ru/node/304535

    Yoshida, T., Suwa, H. (1996). Patent 08-011063 [JP], B23 P 19/06, Flange bolt fastening method and fastening auxiliary device /; owner Hitachi Plant Eng&Constr Co Ltd. № 06-169070; app. 28.06.1994; pub. 16.01.1996. Available at:http://www.sumobrain.com/patents/jp/Flange-bolt-fastening-method-auxiliary/JP3467849.html

    Siegfried, H. (1994). Patent 5330159 [US], G2 C 13/06, Apparatus for automatically inserting and removing screw-threaded elements into and from tapped bores. Owner GEA WENUTEC GMBH, GERMANY. - № US 08/005,560; app. 19.01.1993; pub. 19.07.1994. Available at: http://www.google.com/patents/US5330159

    Konovalov, A. (2006). Gaikoviort novoho pokoleniia , 22, 33. Available at: http://www.proatom.ru/files/as22_20_40.pdf

    Pashchenko, V.; Pushkar, S.; Protsenko, S.; Chuiko, V. (2012). Patent 71976 [UA], F16B 1/00. Device for formation of force at tightening flange connectors of bodies of equipment /; app. 20.04.2010; pub. 10.08.2012. bull. №15. Available at:
    http://uapatents.com/6-71976-pristrijj-dlya-stvorennya-zusillya-pri-germetizaci-flancevikh-rozehmiv-korpusiv-obladnannya.html

    Navrotskii, K. (1991). Teoria i proektirovanie hidro- i pnevmoprivodov, 384. Available at: http://www.twirpx.com/file/670125/

Published

2014-10-20

How to Cite

Чуйко, В. П., & Кулініч, С. П. (2014). Development of the compensation method of pressure pulsation effect on the multi-stage hydraulic cylinder motion. Eastern-European Journal of Enterprise Technologies, 5(7(71), 41–46. https://doi.org/10.15587/1729-4061.2014.28000

Issue

Section

Applied mechanics