ВУЗ: Не указан
Категория: Не указан
Дисциплина: Не указана
Добавлен: 11.12.2023
Просмотров: 150
Скачиваний: 1
ВНИМАНИЕ! Если данный файл нарушает Ваши авторские права, то обязательно сообщите нам.
cated above CAD or CAM systems. Meanwhile, examples of solving such problems using CAD systems could not be found in the literature. The paper proposes a solution to this problem for the case of profiling a disk cutter when processing a helical gear. The direct problem was solved using one of the most common programs – Solidworks. The inverse problem was solved only using the discrete solid modeling method. The imposition of the original CAD-profile of the gear on the similar wheel
obtained by modeling the processing with the calculated
60
Bulletin of the South Ural State University. Ser. Mechanical Engineering Industry. 2022, vol. 22, no. 4, pp. 52–62
ЩуровИ.А. Расчетдисковоймодульнойфрезыдлянарезаниякосозубогоколеса…
cutter showed their qualitative coincidence. Therefore, theses simulation and calculation methods can
be applied in the production practice of design work on gear cutting.
Keywords:disk modular cutter, helicalgear, profiling,metallcuting, CAD,Solidworks.
References
1. Radzevich S.P. Generation of Surfaces Kinematic Geometry of Surface Machining. Taylor & Francis Group, 2014. 683 p.
2. Radzevich S.P. Theory of Gearing. Kinematics Geometry and Synthesis. Taylor & Francis Group, 2013. 684 p.
3. Vorontsov B., Bosansky M., Kirichenko I. et al. Methods of Desig
ning Gear's Machining Tools with the Hyperboloid Cutting Part. JournalofMechanicalEngineering, 2020, vol. 70, no. 1. pp. 135– 132. DOI: 10.2478/scjme-2020-0013.
4. Hrytsay I. Gears with Asymmetric Tooth Profiles and New Alternative Method of Their Manu-facturing.Ukrainianjournalofmechanicalengineeringandmaterialsscience, 2017, vol. 3, mo. 2. pp. 32–37. DOI:10.23939/ujmems2017.02.032.
5. Fetvaci C. Generation Simulation of Involute Spur Gears Machined by Pinion-Type Shaper Cut-ters. Journal ofMechanicalEngineering, 2010, vol. 56, no. 10. pp. 644–652.
6. Han Z, Jlang C., Deng X. Machi
ning and meshing analysis of face gears by power skiving. Jour-nalofAdvancedMechanicalDesign,Systems,andManufacturing, 2022, vol. 16, no. 1. pp. 1– 15. DOI: 10.1299/jamdsm.2022jamdsm0002/
7. Lin S-W., Han C-S., Tan J-B., Dong S. Mathematical models for manufacturing a novel gear shaper cutter. JournalofMechanicalScienceandTechnology, 2010, vol. 24. pp. 383–390. DOI 10.1007/s12206-009-1022-z.
8. Tomori Z., Bognar G.V. A production interference of internal gears – interference at root fillet of shaper cutter. XXX. microCADInternationalMultid
obtained by modeling the processing with the calculated
60
Bulletin of the South Ural State University. Ser. Mechanical Engineering Industry. 2022, vol. 22, no. 4, pp. 52–62
ЩуровИ.А. Расчетдисковоймодульнойфрезыдлянарезаниякосозубогоколеса…
cutter showed their qualitative coincidence. Therefore, theses simulation and calculation methods can
be applied in the production practice of design work on gear cutting.
Keywords:disk modular cutter, helicalgear, profiling,metallcuting, CAD,Solidworks.
References
1. Radzevich S.P. Generation of Surfaces Kinematic Geometry of Surface Machining. Taylor & Francis Group, 2014. 683 p.
2. Radzevich S.P. Theory of Gearing. Kinematics Geometry and Synthesis. Taylor & Francis Group, 2013. 684 p.
3. Vorontsov B., Bosansky M., Kirichenko I. et al. Methods of Desig
ning Gear's Machining Tools with the Hyperboloid Cutting Part. JournalofMechanicalEngineering, 2020, vol. 70, no. 1. pp. 135– 132. DOI: 10.2478/scjme-2020-0013.
4. Hrytsay I. Gears with Asymmetric Tooth Profiles and New Alternative Method of Their Manu-facturing.Ukrainianjournalofmechanicalengineeringandmaterialsscience, 2017, vol. 3, mo. 2. pp. 32–37. DOI:10.23939/ujmems2017.02.032.
5. Fetvaci C. Generation Simulation of Involute Spur Gears Machined by Pinion-Type Shaper Cut-ters. Journal ofMechanicalEngineering, 2010, vol. 56, no. 10. pp. 644–652.
6. Han Z, Jlang C., Deng X. Machi
ning and meshing analysis of face gears by power skiving. Jour-nalofAdvancedMechanicalDesign,Systems,andManufacturing, 2022, vol. 16, no. 1. pp. 1– 15. DOI: 10.1299/jamdsm.2022jamdsm0002/
7. Lin S-W., Han C-S., Tan J-B., Dong S. Mathematical models for manufacturing a novel gear shaper cutter. JournalofMechanicalScienceandTechnology, 2010, vol. 24. pp. 383–390. DOI 10.1007/s12206-009-1022-z.
8. Tomori Z., Bognar G.V. A production interference of internal gears – interference at root fillet of shaper cutter. XXX. microCADInternationalMultid