Information-measuring complex for the research on trajectories of spindle with hydrostatical bearings

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Authors:

D.Yu. Fedorynenko, Dr. Sci. (Tech.), Associate Professor, Chernihiv National University of Technology, Professor of the Department of Machine Building Technology and Wood Processing, Chernihiv, Ukraine.

S.P. Sapon, Cand. Sci. (Tech.), Chernihiv National University of Technology, Senior Lecturer of the Department of Machine Building Technology and Wood Processing, Chernihiv, Ukraine.

O.P. Kosmach, Cand. Sci. (Tech.), Chernihiv National University of Technology, Senior Instructor of the Department of Machine Building Technology and Wood Processing, Chernihiv, Ukraine.

S.V. Boyko, Cand. Sci. (Tech.), Associate Professor, Senior Lecturer of the Department of Machine Building Technology and Wood Processing, Chernihiv, Ukraine.

Abstract:

Purpose. To increase the accuracy of determination of the parameters of movement trajectories of the spindle on hydrostatic bearings, based on the use of high-precision laser triangulation position sensors and digital signal processing.

Methodology. For the experimental research of regularities of the spindle block accuracy formation in terms of the accuracy trajectories movement of the spindle, the method of trajectories with modern, high-precision means of measurement and digital information processing has been used. The parameters of the spindle movement trajectories were estimated by statistical descriptions of magnitude the radius vector. The frequency content of trajectories of the spindle was analyzed by the method of spectral analysis.

Findings. Based on the application of modern high-precision measuring tools and digital signal processing, we have developed the information-measuring complex for the research on trajectories of the spindle. The methodology of experimental research on movement trajectories of the spindle with hydrostatic supports has been proposed. The methodology allows us to determine statistical descriptions of the accuracy of the spindle block with high accuracy under the simultaneous impact of technological loads, pressure and oil temperature in hydrostatic supports. The application of the proposed methodology allowed us to establish the clear stochastic character of movement trajectories of the spindle with hydrostatic supports, especially under relatively small harmonic load. The results of the analysis of indicators accuracy of spindle rotation, depending on the operating parameters of the hydrostatic supports are presented.

Originality. Statistical descriptions of the spindle trajectories and their influence on the formation of the spindle block accuracy indicators depending on the operational parameters of hydrostatic supports and technological loads were established.

Practical Value. The proposed methodology of the research on the accuracy of the spindle movement trajectories based on the modern precision information-measuring complex can be used to analyze the accuracy of a wide range of rotating units of technological equipment.

References:

  1. Charles Wang (2001), “A new laser non-contact method for the measurement of spindle error motion”, Proceedings of ASPE: Summer Topic Meeting, State College, PA June 1819, 2001, pp. 750762.

  2. Юркевич В.В. Методы испытаний обрабатывающих станков / В.В. Юркевич // Машиностроитель – 2006. №10. – С. 3039.

Jurkevich, V.V. (2006), “Methods of processing machines testing”, Mashinostroitel, no. 10, pp. 30–39.

  1. Юркевич В.В. Испытания, контроль и диагностика металлообрабатывающих станков: монография / Юркевич В.В., Схиртладзе А.Г., Борискин В.П. Старый Оскол: ООО «ТНТ», 2006. 552 с.

Yurkevich, V.V., Skhirtladze, A.G. and Boriskin, V.P. (2006), Ispytaniya, control i diagnostika metalloobrabatyvayushchikh stankov [Testing, Control and Diagnostics of Metal-Working Machines], OOO “TNT”, Stary Oskol, Russia.

  1. Юркевич В.В. Экспертная система для токарной обработки / В.В. Юркевич // Вестник машиностроения – 2010. №6. – С.73–76.

Yurkevich, V.V. (2010), “Expert system for turning”, Vestnik Mashinostroeniya, no. 6, pp. 73–76.

  1. Космынин А.В. Анализ точности вращения высокоскоростных шпинделей с газостатическими опорами / А.В. Космынин, С.П. Чернобай// СТИН. – 2006. − №6. – С.10−13.

Kosmynin, A.V. and Chernobay, S.P. (2006), “Analysis of rotation accuracy of high-speed spindles with gasostatic bearings”, STIN, no. 6, pp. 10–13.

  1. Ashok, S.D. and Samuel, G.L. (2010), “Regression method for identifying spindle radial errors of a miniaturized machine tool”, Journal of Studies on Manufacturing, Vol. 1, Issue 1, pp. 26–33.

  2. Контроль положения шпинделя на газостатических опорах методом виброакустической эмиссии / А.С. Хвостиков, А.В. Космынин, В. С. Щетинин [и др.] // Вестник Оренбургского государственного университета. – 2012. − № 9 (145).С.134–137.

Khvostikov, A.S., Kosmynin, A.V., Shchetinin, V.S., Smirnov, A.V. and Blinkov, S.S. (2012), “The control of the spindle on gasostatic bearing by the method of vibration acoustic issue”, Vestnik Orenburgskogo Gosudarstvennogo Universiteta, no. 9(145), pp. 134–137.

  1. Петраков Ю.В. Автоматичне управління процесами обробки матеріалів різанням / Петраков Ю.В. – К.: УкрНДІАТ, 2003. 383 с.

Petrakov, Yu.V. (2003), Avtomatychne upravlinnia protsesamy obrobky materialiv rizanniam [Automatic Control over Materials Cutting Processes], UkrNDIAT, Kyiv, Ukraine.

  1. Степнов М.Н. Статистические методы обработки результатов механических испытаний : справочник; 2-е изд., испр. и доп.  / Степнов М.Н., Шаврин А.В. М.: Машиностроение, 2005. 399 с.

Stepnov, M.N. and Shavrin, A.V. (2005), Statisticheskie metody obrabotki rezultatov mekhanicheskikh ispytaniy: spravochnik. [Statistical Methods for the Mechanical Testing Results Processing], Mashinostroenie, Moscow, Russia.

  1. Струтинський В.Б. Статистична динаміка шпиндельних вузлів на гідростатичних опорах: монографія Струтинський В.Б., Федориненко Д.Ю.  Ніжин: ТОВ „Видавництво „Аспект-Поліграф”, 2011. 464 с.

Strutynskyi, V.B. and Fedorynenko, D.Yu. (2011), Statystychna dynamika shpyndelnykh vuzliv na hidrostatychnykh oporakh [Statistical Dynamics of Spindle Units for Hydrostatic Bearings], TOV Vydavnytstvo Aspekt-Polіgraf, Nizhyn, Ukraine.

 

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ISSN (print) 2071-2227,
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