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| Публикация: №1 | Cvetanov, G., Karadzhov, T., Optical Geometric Design of Small Modular Cylindrical Gears with Asymmetric Profile (2023) Vide. Tehnologija. Resursi - Environment, Technology, Resources, 3, pp. 61-64, DOI: 10.17770/etr2023vol3.7279 | | Издателство: | Resursi - Environment, Technology, Resources | | Изд.год.: | 2023 | | Вид: | Научна публикация - Доклад от межд.конф. в чужбина | |
| Публикация: №2 | Tsvetanov, G. , Kokalarov, M. , Karadzhov, T. , Georgiev, I., A NEW METHOD FOR CONTACTLESS MEASUREMENT OF SMALL MODULE GEARS WITH ASYMMETRIC PROFILE, Annals of DAAAM and Proceedings of the International DAAAM Symposium, 2023, 34(1), pp. 262–267 | | Издателство: | Annals of DAAAM and Proceedings of the International DAAAM Symposium | | Изд.год.: | 2023 | | Вид: | Научна публикация - Доклад от межд.конф. в чужбина | | Абстракт: | In the field of mechanical engineering, achieving precise measurements of small-module gears and transmissions is critical. This paper presents an innovative non-contact method for assessing the accuracy of these components, based on optic-electronic signal processing principles. It offers superior precision in evaluating gear geometry, pitch, and profile. With recent advancements in gear manufacturing, there is a growing need for efficient and precise measurement methods to ensure optimal performance and durability. Traditional tactile methods and double-flank inspections have limitations, including potential subjective errors. This paper addresses these challenges by providing a comprehensive solution that not only enhances measurement accuracy but also sheds light on the relationship between production variables and gear precision. This study is significant for delivering high-precision gear assessments, revealing production-precision links, reducing subjective errors, highlighting automation potential, and contributing to the discourse on mechanical precision in gear-dependent industries. Drawing from foundational research in gear measurement, optic-electronic signal processing, and manufacturing automation, its primary aim was to determine if non-contact methods improve small-module gear measurement. Through rigorous analysis, this study unequivocally affirms this question, advancing gear and transmission measurement and control. © 2023 Danube Adria Association for Automation and Manufacturing, DAAAM. All rights reserved. | | Web: | https://daaam.info/34th-proceedings-2023 | | Пълен текст: | | |
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