MODE SHAPES MODELING OF THE MECHANICAL VIBRATION SYSTEM «SPINDLE UNIT» OF MACHINE-TOOL

Ю. М. Данильченко, А. И. Петришин

Abstract


Purpose. The research of complex influence of design, kitting, mounting, maintenance conditions, and elastic-dissipative properties of spindle units on mode shapes forming.

Design/Methodology/Approach. Spindle unit considered to be mechanical vibration system, that consists of subsystems: tool(tool holder), spindle and spindle quill that is elastically mounted on machine tool bed. Designed model of mode shapes based on solving of the system of deformation compatibility equations in the points of subsystems disconnection, and force method canonical equations for displacements in characteristic points of subsystems.

Findings. Subsystems mode shapes on system natural frequencies has been calculated, with taking into account dissipative characteristics of supports and subsystems joints. Analysis of the elastic curves shapes of system elements was carried out and regularity of their forming is established.

Originality/value. It was established, that the largest level of spindle and quill vibration occurs on spindle natural frequency and “spindle-quill” system combined frequency

Keywords


spindle unit; mechanical vibration system; mode shapes

References


Proektirovanie metallorezhuwih stankov i stanochnyh sistem: Spravochnik-uchebnik. [Design of machine tools and machine tool systems. Guide book.] V 3-h t. T.2. Ch.1. / Pod obw. red. A.S.Pronikova. –Moscow: Mashinostroenie, 1995, 371 p.

Homjakov V.S. Modelirovanie i raschet dinamicheskih harakteristik shpindel'nyh uzlov. [Bulletin of the UGATU].Ufa: UGATU, 2009, – Volune 12, № 2(31), pp. 69–75.

Push A.V. Shpindel'nye uzly: Kachestvo i nadezhnost'. [Spindle units. Quality and reliability.] –Moscow: Mashinostroenie, 1992, 288 p.

Danylchenko Ju.M. Dinamicheskij analiz mehanicheskoj kolebatel'noj sistemy «shpindel'nyj uzel» metallorezhuwego stanka. Danylchenko Ju.M., Petrishin A.I. [Reporter of NTUU "KPІ". Mechanical engineering series.]. Kiew: 2012, no. 64, pp. 27-34.

Levina Z.M. Kontaktnaja zhestkost' mashin. Levina Z.M., Reshetov D.N. Moscow: Mashinostroenie, 1971, p. 264.

Biderman V.L. Prikladnaja teorija mehanicheskih kolebanij: Ucheb. posobie dlja vtuzov. [Applied theory of mechanical vibrations: a manual for technical colleges]. Moscow: Mashinostroenie, 1972, 416 p.


GOST Style Citations


1.         Проектирование металлорежущих станков и станочных систем: Справочник-учебник. В 3-х т. Т.2. Ч.1. / Под общ. ред. А.С.Проникова. – М.: Машиностроение, 1995. – 371 с.

 

2.         Хомяков В.С. Моделирование и расчет динамических характеристик шпиндельных узлов / Хомяков В.С., Кочинев Н.А., Сабиров Ф.С.// Вестник УГАТУ. – Уфа: УГАТУ. – 2009. – Т.12. – № 2(31). – С. 69–75.

 

3.         Пуш А.В. Шпиндельные узлы: Качество и надежность. – М.: Машиностроение, 1992. – 288 с.

 

4.         Данильченко Ю.М. Динамический анализ механической колебательной системы «шпиндельный узел» металлорежущего станка / Данильченко Ю.М., Петришин А.И. // Вісник НТУУ "КПІ". Серія машинобудування. – 2012. - № 64. – С. 27-34.

 

5.         Левина З.М. Контактная жесткость машин / Левина З.М., Решетов Д.Н.– М.: Машиностроение, 1971. – 264 с.

 

6.         Бидерман В.Л. Прикладная теория механических колебаний: Учеб. пособие для втузов. - М.: Машиностроение, 1972. – 416 с.





DOI: http://dx.doi.org/10.20535/2305-9001.2012.66.38613

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