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Machine-building Technologies
Название New design of the evolvent worm mill with carbide turning rack
DOI 10.17580/cisisr.2021.01.15
Автор O. I. Boriskin, I. V. Astapova
Информация об авторе

Tula State University (Tula, Russia):

O. I. Boriskin, Dr. Eng., Prof., Head of Dept. of Instrumental and Metrological Systems, Director of Polytechnic Institute, e-mail: polyteh2010@mail.ru
I. V. Astapova, Post-Graduate, e-mail: goriv1356@gmail.com

Реферат

For high-speed cutting of teeth of cylindrical wheels made of structural and difficult-to-machine steels and alloys, cast iron, non-ferrous metals and various non-metallic materials with increased abrasive ability in conditions of mass and large-scale production, carbide hob cutters are used. A promising direction for hob cutters is the use of rotary racks as cutting elements. However, when they are rotated by 180°, errors in the tool profile are transferred to the workpiece. Therefore, the existing designs of such cutters are used only for roughing or semi-finishing, reaching accuracy classes B, C and D according to GOST 9324-2015. In order to improve their accuracy, the article proposes a new design of the assembled hob cutter with carbide rails, which allows maintaining the required tooth profile after turning the cutting elements. Milling cutters with flat front surfaces and back surfaces are adopted, the generatrix of which is perpendicular to the cutting edge. From the point of view of the working conditions of the cutting tool, studies of the kinematic angles were carried out. The calculation was carried out according to the formulas derived according to the scheme for the general option of cutting the wheel with a worm cutter. In this case, the working angles were calculated at points on the tooth profile at different moments of rotation of the cutter and along the entire length of the cutter. The analysis of the influence of the main parameters of the cutter on the cutting angles is presented. The possibility of using the design of a prefabricated worm cutter with flat front surfaces and back surfaces, the generatrix of which is perpendicular to the cutting edge, has been confirmed. Recommendations for achieving optimal working angles in the process of gear hobbing for milling cutters of the adopted design are proposed.

Ключевые слова Worm mill, rotary rack, tooth profile, accuracy, tooth profile errors, kinematic analysis, working angles, working front and rear corners
Библиографический список

1. Tseng J. T., Tsay C. B. Mathematical model and surface deviation of cylindrical gears with curvilinear shaped teeth cut by a hob cutter. ASME J. Mech. Des. 2005. Vol. 127. pp. 982–987.
2. Mate M., Hollanda D. About the profile accuracy of the involute gear hob. Electrical and Mechanical Engineering. 2017. Vol. 9. pp. 5–18
3. Feofilov N. D., Skryabin V. N., Vorobev I. A., Yanov E. S., Effect of regrindings and the geometry of the front surfaces of a prefabricated worm cutter on the profile of gears. Izvestiya Tulskogo gosudarstvennogo universiteta. Seriya “Tekhnicheskie nauki”. 2016. Vol. 7. Part 2. pp. 86–92.
4. Pat. Germany US 2019 / 0232405 A1, B23F 21/16. Hobbing tool with replaceable cutting inserts. Andrea Consonni. Filed: Apr. 7, 2017, Date: Dec. 19, 2018.
5. Pat. KR 20130043511 (A), B23F 21/16. Assembly type hob for cutting gear. Yoon Sung Dug. Date: April 30, 2013.
6. Pat. Russian Federation 2680122 C1, IPC B23F 21/16. Combined worm cutter. Artamonov E. V., Kireev V. V., Zyryanov V.A. No. 2017146947; declared December 28, 2017; publ. 02/15/2019.
7. Artamonov E. V., Kireev V. V., Zyryanov V. A., Improving the Efficiency of Hobbing Mills. Russian Engineering Research. 2017. Vol. 37. No. 5. pp. 447–449. DOI: 10.3103/S1068798X17050057
8. Sovilj-Niki I. Application of genetic algorithm in optimization of geometric parameters of hob milling tool (Primena genetskog algoritma u optimizaciji geometrijskih parametara odvalnog glodala). Fakultet tehnikih nauka. Novi Sad. Serbia. Master Thesis. 2007.
9. Hsu R. H., Fong J. H. Novel variable-tooth-thickness hob for longitudinal crowning in the gear-hobbing process. Mechanism and Machine Theory. 2011. Vol. 46. pp. 1084–1096.
10. Radzevich S. P. A novel design of cylindrical hob for machining of precision involute gears. ASME J. Mech. Des. 2007. Vol. 129. pp. 334–345.
11. Radzevich S. P. Design of a special-purpose hob with prescribed value of the hob-setting angle for machining of cluster gear. ASME J. Mech. Des. 2007. Vol. 129. pp. 438–444.
12. Boriskin O. I., Stakhanov N. G., Astapova I. V. Error analysis of evolvent worm milling cutters with carbide-tipped multi-faceted inserts. Chernye metally. 2019. No. 5. pp. 22–27.
13. Boriskin O. I., Stakhanov N. G., Astapova I. V. Methods for improving the accuracy of technological and carbide inserts. High-tech technologies in mechanical engineering. 2019. No. 4. pp. 3–6.

Полный текст статьи New design of the evolvent worm mill with carbide turning rack
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