RATIONAL CHOICE OF TWO-SUPPORT SPINDLES FOR MACHINING CENTERS WITH LUBRICATION SYSTEM

  • Oleg Krol Volodymyr Dahl East Ukrainian National University
  • Petko Tsankov Technical University of Sofia, Bulgaria
  • Volodymyr Sokolov Volodymyr Dahl East Ukrainian National University
DOI: https://doi.org/10.21303/2461-4262.2018.00648
Keywords: rational choice, spindle unit, lubrication system, declarative model, procedural model

Abstract

In the multivariate design mode, based on the effective parallel design facilities, the rational choice of the design of the two-support spindle for the machining center is the main aim of this article. A modified scheme for selecting a spindle unit is proposed, which reflects the procedure for the formation of its main components: "Representations on the Spindle Unit Variations" and "Representations on the Designer's preferences". A concept is introduced and a component of the selection scheme is described: "Procedural model", which makes it possible to realize the mechanism of forming preferences of the machine tool builder in the process of selecting the best design alternative. 3D models of the horizontal and vertical spindle heads for the multi-operation CNC machine are developed on the basis of the proposed modified scheme of rational choice. The analysis of various methods and technology of spindle units lubrication is presented and it is shown how the declarative (the most complete description of the methods and features of lubrication) representation in the selection of design priorities and the adoption of design solutions is used. The introduction of rational choice facilities into the practice of design activities in the field of machine tool building improves the efficiency of the multivariate design with a return character, significantly increasing the productivity of work and the quality of the design decisions.

Downloads

Download data is not yet available.

Author Biographies

Oleg Krol, Volodymyr Dahl East Ukrainian National University

Department of Machinery Engineering and Applied Mechanics

Petko Tsankov, Technical University of Sofia, Bulgaria

Faculty of Engineering and Pedagogy - Sliven

Volodymyr Sokolov, Volodymyr Dahl East Ukrainian National University

Department of Machinery Engineering and Applied Mechanics

References

Krol, O. S., Sokolov, V. I. (2017). Metody i procedury racional'nogo vybora v stankostroenii [Methods and procedures of rational choice in machine tool construction]. Lugansk: VNU, 112.

Krol, O. S., Sokolov, V. I. (2017). Metody i procedury inzhenernogo prognozirovaniуa v stankostroenii [Methods and procedures of engineering forecasting in machine tool building]. Lugansk: VNU, 114.

Emel'janov, S. V., Nappel'baum, Je. L. (1981). Sistemy, celenapravlennost', refleksiya [Systems, focus, reflection]. Sistemnye issledovaniya. Metodologicheskie problemy, 7–38.

Puhovskij, E. S. (1991). Matematicheskoe modelirovanie processa tehnologicheskogo proektirovaniya stanochnyh sistem [Mathematical modeling of process of technological design of machine systems]. Tehnologiya i avtomatizaciya mashinostroeniya, 47, 77–87.

Aver'janov, O. I. (1987). Modul'nyj princip postroeniya stankov s ChPU [Modular principle of building CNC machines]. Moscow: Mashinostroenie, 232.

Temchin, G. I. (1957). Teoriya i raschet mnogoinstrumental'nyh naladok [Theory and calculation of multi-instrumental adjustments]. Moscow: Mashgiz, 556.

Gil'man, A. M., Gostev, G. V., Egorov, Ju. B., Jasanov, Ju. V. (1957). Avtomatizirovannoe proektirovanie optimal'nyh naladok metallorezhushhih stankov [Automated design of optimal settings for metal-cutting machines]. Moscow: Mashinostroenie.

Basin, Ju. Ja., Korol', I. V., Rozental', P. L. (1985). Avtomatizirovannoe proektirovanie instrumental'nyh naladok na JeVM [Automated design of instrumental adjustments on a computer]. Stanki i instrument, 2, 3–4.

Push, V. Je. (1985). Metallorezhushhie stanki [Metal-cutting machine tools]. Moscow: Mashinostroenie, 256.

Pronikov, A. S., Borisov, E. I., Bushuev, V. V. et. al. (1995). Proektirovanie metallorezhushhih stankov i stanochnyh sistem [Design of metal-cutting machine tools and machine system]. Moscow: Mashinostroenie, 320.

Yoshimura, M. (1984). Multiobjektive design optimization of mashine-tool spindles. Transactions of the ASME, 48–53.

Krol, O. S. (1997). Instrumental'nye sredstva racional'nogo vybora tehnologicheskih sistem mehanoobrabotki [Instrumental means of rational choice of technological systems of machining]. Vestnik NTUU (KPI), 32, 157–161.

Bal'mont, V. B., Gorelik, I. G., Figatner, A. M. (1987). Raschety vysokoskorostnyh shpindel'nyh uzlov [Calculations of high-speed spindle nodes]. Moscow: VNIITEMR, 52.

Shevchenko, S., Mukhovaty, A., Krol, O. (2017). Gear Clutch with Modified Tooth Profiles. Procedia Engineering, 206, 979–984. doi: 10.1016/j.proeng.2017.10.581

Krol, O. S., Burlakov, E. I. (2013). Modelirovanie shpindel'nogo uzla obrabatyvayushhego centra [Modeling the spindle center of the machining center]. Vіsnik Nacіonal'nogo tehnіchnogo unіversitetu «HPІ». Serіya: Novі rіshennja v suchasnih tehnologіyah, 11 (985), 33–38.

Shevchenko, S., Mukhovaty, A., Krol, O. (2016). Geometric Aspects of Modifications of Tapered Roller Bearings. Procedia Engineering, 150, 1107–1112. doi: 10.1016/j.proeng.2016.07.221

Stefanov, G., Tsankov, P., Ivanova, N. (2006). Prouchvane na tehnologichni metodi i shemi za regenerirane na otraboteni masla [Study of technological methods and schemes for regeneration of waste oils]. Osma nauchna konferenciya – “Smoljan-2006”-Sbornik dokladi, 243–247.

Tsankov, P. (2015). Numerical Investigation of the Influence of Gas Temperature upon the Characteristics of Flat Aerostatic Bearing using CFD-Simulation. IJAR (Indian Journal of applied research), 5 (4), 764–766.

Sokolov, V., Krol, O. (2017). Installations Criterion of Deceleration Device in Volumetric Hydraulic Drive. Procedia Engineering, 206, 936–943. doi: 10.1016/j.proeng.2017.10.575

Sokolov, V., Rasskazova, Y. (2016). Automation of control processes of technological equipment with rotary hydraulic drive. Eastern-European Journal of Enterprise Technologies, 2 (2 (80)), 44–50. doi: 10.15587/1729-4061.2016.63711

Reshetov, D. N. (1972). Detali i mehanizmy metallorezhushhih stankov [Details and mechanisms of metal-cutting machine tools]. Vol. 2. Moscow: Mashinostroenie, 520.


👁 796
⬇ 203
Published
2018-06-02
How to Cite
Krol, O., Tsankov, P., & Sokolov, V. (2018). RATIONAL CHOICE OF TWO-SUPPORT SPINDLES FOR MACHINING CENTERS WITH LUBRICATION SYSTEM. EUREKA: Physics and Engineering, (3), 52-58. https://doi.org/10.21303/2461-4262.2018.00648
Issue
No. 3 (2018)
Section
Mechanical Engineering

Copyright (c) 2018 Oleg Krol, Petko Tsankov, Volodymyr Sokolov

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Our journal abides by the Creative Commons CC BY copyright rights and permissions for open access journals.

Authors, who are published in this journal, agree to the following conditions:

1. The authors reserve the right to authorship of the work and pass the first publication right of this work to the journal under the terms of a Creative Commons CC BY, which allows others to freely distribute the published research with the obligatory reference to the authors of the original work and the first publication of the work in this journal.

 2. The authors have the right to conclude separate supplement agreements that relate to non-exclusive work distribution in the form in which it has been published by the journal (for example, to upload the work to the online storage of the journal or publish it as part of a monograph), provided that the reference to the first publication of the work in this journal is included.