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Author
Filipowicz Krzysztof (Silesian University of Technology, Poland), Kuczaj Mariusz (Silesian University of Technology, Poland), Baranowski Sławomir (Polska Grupa Górnicza S.A., Poland)
Title
Experimental Identification of the Impact of Sectional Satellite Wheels on the Load Distribution in the Meshing of the Planetary Gear in Mining Machines
Source
New Trends in Production Engineering, 2019, vol. 2(1) cz.I, s. 143-152, rys., bibliogr. 15 poz.
Issue title
Part I: Modern Machines and Technologies for Mining
Keyword
Maszyny i urządzenia, Górnictwo, Układ napędowy, Proces projektowania
Machinery and equipment, Mining sector, Drive system, Design process
Note
streszcz., summ.
Abstract
This article attempts to solve the problem of load compensation in mesh planetary gearing, with the innovative design idea, resulting from the increased plasticity of the planet wheels (satellite). The cognitive main objective of the experimental work was carried out to identify the comparative effect of the split narrow planet gears, on the load distribution on the length of the teeth of the planet gears of the central wheel of the planetary gear. Achieving this aim, in addition to in-depth analysis, requires experimental research on a specially-built test stand and simulation tests on a solid model of the transmission using the finite element method (FEA). This article presents the concept of a novel test stand, design methodology and research on the influence of the sectional satellite wheels on the load mesh of planetary gears in mining machines. (original abstract)
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Bibliography
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  1. Bodas, A. and Kahraman, A. (2004). Influence of carrier and gear manufacturing errors on the static load sharing behavior of planetary gear sets. JSME International Journal, series C, 47(3), pp. 908-915.
  2. Boguski, A., Kahraman, A. and Nishino, T. (2012). A new method to measure planet load sharing and sun gear radial orbit of planetary gear sets. Journal of Mechanical Design, 134(7), 071002, p. 134.
  3. Börner, J. and Senf, M. (1995). Verzahnungsbeanspruchung im Eingriffsfeld - effektiv berechnet. Antriebstechnik, 34, p. 59.
  4. Chaari, F., Fakhfakh, T., Hbaieb, R., Louati, J., Haddar, M. (2006). Influence of manufacturing errors on the dynamic behaviour of planetary gears, International Journal of Advanced Manufacturing Technology, 27, pp. 738-746.
  5. Cheon, G.J. and Parker, R.G. (2004). Influence of manufacturing errors on the dynamic characteristics of planetary gear systems. KSME International Journal, 18(4), pp. 606-621.
  6. Gurumani, R., and Shanmugam, S. (2011). Modeling and contact analysis of crowned spur gear teeth, Engineering Mechanics, 18(1), pp. 65-78.
  7. Kowal, A., et al., Planetary gearbox (in Polish), patent RU 59958, W-113763. 03.04.2003.
  8. Kowal, A., Planetary gearbox with torque equalization (in Polish), patent: PL 176935, 09.02.1999.
  9. Lamparski, Ch., Einfache Berechnungsleichungen für Lastüberhöhungen in LeichtbauPlanetengetrieben, PhD Thesis, Ruhr-Universität Bochum, Lehrstuhl für Maschinenelemente und Getriebetechnik, No. 95.3.
  10. Ligata, H., Kahraman, A., Singh, A. (2008). An experimental study of the influence of manufacturing errors on the planetary gear stresses and planet load sharing, Journal of Mechanical Design, 130(4), 041701, pp. 9.
  11. Linke, H. (1978). Beitrag zur Ermittlung der Zahnflanken-und Zahnfuβ tragfähigkeit unter Berücksichtigung der Abweichungen geometrischer Gröβ en, Deformation der Getriebeteile und der Werkstoffkennwerte, Habilitationsschrift, TU Dresden.
  12. Placzek, T. (1988). Lastverteilung und Flankenkorrektur in gerad- und schrägverzahnten Stirnradstufen, PhD Thesis, TU München.
  13. Schulze, T. (2009). Load distribution in planetary gears under consideration of all relevant influences. JSME International Conference on Motion and Power Transmissions, Matsushima Isles Resort, Japan.
  14. Schulze, T., Hartman-Gerlach, Ch., Schlecht, B. (2010). Calculation of Load Distribution in Planetary Gears for an Effective Gear Design Process. AGMA American Gear Manufacturers Association,10.
  15. Vonderschmidt, R.W., Zahnkräfte in geradverzahnten Planetenradgetrieben, PhD Thesis. Ruhr-Universität Bochum, Lehrstuhl für Maschinenelemente und Getriebetechnik, No. 82.5.
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ISSN
2545-2843
Language
eng
URI / DOI
http://dx.doi.org/10.2478/ntpe-2019-0015
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