Abstract
During grinding of conical helicoidal surfaces that solution has to be chosen when beside the variable wheel profile that is caused by the wear of the grinding wheel, there is a possibility to keep the characteristics of the worm profile within the permissible tolerance level. By a new grinding technique, as a function of the shifting of the centre distance, the value of the wheel banking angle correction is constantly being varied along the pitch length of the worm. The mathematical calculation and the production technology are applied for a new geometrical, spiroid worm gear drive having arched profile in axial section (ellipse, circle, parabola, etc.) [2, 6–9].
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Balajti ZS (2007) Kinematikai hajtópárok gyártásgeometriájának fejlesztése. Miskolc, Ph.D. dissertation, University of Miskolc, Research Leader: Prof. Dr. Illés Dudás
Bodzás S (2014) Kúpos csiga-, tányérkerék- és szerszám felületek kapcsolódásának elemzése, Ph.D. dissertation, University of Miskolc, p. 154., Research Leader: Prof. Dr. Illés Dudás, doi: 10.14750/ME.2014.006
Dudás I (2007) Csigahajtások elmélete és gyártása, Műszaki Kiadó, Budapest. (ISBN 978-963-16-6047-0)
Dudás I (2000) The theory and practice of worm gear drives. Penton Press, London, ISBN 1877180295
Dudás I (2011) Gépgyártástechnológia III., A. Megmunkáló eljárások ész szerszámaik, B. Fogazott alkatrészek gyártása és szerszámaik, Műszaki Kiadó, Budapest
Dudás I, Bodzás S, Dudás I. SZ, Mándy Z Konkáv menetprofilú spiroid csigahajtópár és eljárás annak köszörüléssel történő előállítására, Patent number: P1200405, The day of the patent registration: 2012.07.04
Dudás I, Bodzás S Production geometry analysis, modeling and rapid prototyping production of manufacturing tool of spiroid face gear, Advanced Manufacturing Technology, Springer, ISSN 1433–3015 (Online), 2012.07.19. (Online), ISSN 0268–3768 (Print), Volume 66, Issue 1–4., pp. 271 – 281., 2013. 04. (Print), (IF 1.103), doi: 10.1007/s00170-012-4323-9, http://www.springerlink.com/content/t12l4xh51g664266/?MUD=MP, http://www.springer.com/home?SGWID=0-0-10030&aqId=2362785&download=1&checkval=5131188b9d22673b4f7f1f6eb76f3a2e
Dudás I, Bodzás S Measuring technique and mathematical analysis of conical worms, Advanced Manufacturing Technology, Springer, ISSN 1433–3015 (Online), 2012.09.14. (Online), ISSN 0268–3768 (Print), Volume 66, Issue 9 (2013), pp. 2075–2085, 2013. 05. (Print), (IF 1.779), doi 10.1007/s00170-012-4483-7, http://www.springerlink.com/content/97744668843ukp07/, http://www.springer.com/home?SGWID=0-0-1003-0-0&aqId=2388273&download=1&checkval=51c4b487d0f43b24be21924d58a0daf9
Dudás I, Bodzás S, Mándy Z Solving the pitch fluctuation problem during the manufacturing process of conical thread surfaces with lathe center displacement, International Journal of Advanced Manufacturing Technology, Springer, ISSN 0268–3768 (Online), 2013.06.14. (Online), Volume 66, Numbers 9 – 12, (IF 1.779) doi: 10.1007/s00170-013-5010-1, http://link.springer.com/article/10.1007%2Fs00170-013-5010-1, http://www.springer.com/home?SGWID=0-0-1003-0-0&aqId=2485615&download=1&checkval=b52fa61a5054910ead25d69d932b7803
Dudley DW (1962) The design, manufacture, and application of gears. McGraw – Hill, New York
Hegyháti J (1988) Untersuchugen zur Anwendung von Spiroidgetrieben. Diss. A. TU, Desden
Litvin FL, Fuentes A (2004) Gear geometry and applied theory, Cambridge University Press, ISBN 978 0 521 81517 8
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Dudás, I., Bodzás, S. The kinematical model for the geometrically appropriate production of conical helicoidal surfaces having unvaried lead. Int J Adv Manuf Technol 80, 1319–1335 (2015). https://doi.org/10.1007/s00170-015-7088-0
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00170-015-7088-0