Year 2023,
, 22 - 28, 20.03.2023
Onur Güven
,
Bedrettin Hakan Karaaslan
,
Ahmet Çakan
,
Suat Özer
References
- Sclater, N. (2011). Mechanisms and mechanical devices sourcebook. McGraw-Hill Education.
- Norton, R. L. (2002). Cam design and manufacturing handbook. Industrial Press Inc.
- Chen YF. (1982). Mechanics and design of cam mechanisms.Pergamon Press, USA.
- Orta Doğu Teknik Üniversitesi (2001). Açık ders uygulamaları. http://ocw.metu.edu.tr/mod/resource/view.php?id=1124.pdf.
- Jana, R. K., & Bhattacharjee, P. (2017). A multi-objective genetic algorithm for design optimisation of simple and double harmonic motion cams. International Journal of Design Engineering, 7(2), 77-91.
- Karaaslan B.H. (2020). Tasarımdan imalata düşey çoklu çıkış uzuvlu silindirik kam mekanizması. Me.Ü. Fen Bilimleri Enstitüsü Y.Lisans Tezi. Türkiye.
- Harold A. R. (2004). Cam Design Handbook. Dean Emeritus College of Science and Engineering Fairleigh Dickinson University Teaneck, New Jersey, s. 1-58.
- Chakraborty, J., Dhande, S. G. (1977). Kinematics and geometry of planar and spatial cam mechanisms, JohnWiley & Sons, New York.
- Dhande, S. G., Bhodoria, B. S., Chakraborty, J. (1975). A unified approach to the analytical design of three dimensional cam mechanisms. Journal of Engineering for Industry, 97:327–333.
- MA, G. (1994). Synthesis of Contact Surfaces of Spherical Cam-Oscillating Roller-Follower Mechanisms: A General Approach. Journal of Mechanical Design, 116(1), 315-31
- Yan, H. S., & Chen, H. H. (1994). Geometry design and machining of roller gear cams with cylindrical rollers. Mechanism and Machine Theory, 29(6), 803-812.
- Tasy, D. M. and Hwang, G. S. (1994). Application of the theory of envelope of the determination of camoid profiles with translating followers. ASME J. Mech. Des., 116, s.320–325.
- Sutphin J. (2005). Autocad 2006 VBA: A Programmer’s Reference. New York, ABD, s.143-203.
Cylindrical cam mechanism design with visual basic
Year 2023,
, 22 - 28, 20.03.2023
Onur Güven
,
Bedrettin Hakan Karaaslan
,
Ahmet Çakan
,
Suat Özer
Abstract
One of the technology products that have taken an important place in our lives from the past to the present is power and motion transfer elements. Power and motion transfer elements are very important for users in terms of facilitating work transfer, easing the workload based on people and ergonomics. One of the basic building blocks of these transmission systems is cam mechanisms. Cam mechanisms consisting mainly of followers and cams; It performs a complementary task by transmitting the follower's movement to the cam assembly by direct contact. While cam mechanisms lighten the work load, it is a frequently preferred system because it takes up little space and contains few parts and allows for a wide range of movements. However, sensitivity to vibration and sudden shock effects and cost problems have led to the development of manufacturing methods of cam mechanisms. In this master's thesis, design and mathematical information about cam mechanisms and cylindrical cam mechanisms are given, and the design of a cylindrical cam mechanism with a vertical multiple output limb was carried out using computer-aided drawing programs Solidworks and Autocad. The use of multiple output limb cam mechanisms is increasing day by day in terms of the width of the work area and the possibility to work with other machines. For this reason, this work is intended to be a guide resource for the reader in industry and science for both cam mechanisms and cylindrical cam mechanisms. Microsoft Excel and Visual Basic programs were used in the calculations and designs, and the design details of the mechanism were revealed with the data and formulas entered into the program.
References
- Sclater, N. (2011). Mechanisms and mechanical devices sourcebook. McGraw-Hill Education.
- Norton, R. L. (2002). Cam design and manufacturing handbook. Industrial Press Inc.
- Chen YF. (1982). Mechanics and design of cam mechanisms.Pergamon Press, USA.
- Orta Doğu Teknik Üniversitesi (2001). Açık ders uygulamaları. http://ocw.metu.edu.tr/mod/resource/view.php?id=1124.pdf.
- Jana, R. K., & Bhattacharjee, P. (2017). A multi-objective genetic algorithm for design optimisation of simple and double harmonic motion cams. International Journal of Design Engineering, 7(2), 77-91.
- Karaaslan B.H. (2020). Tasarımdan imalata düşey çoklu çıkış uzuvlu silindirik kam mekanizması. Me.Ü. Fen Bilimleri Enstitüsü Y.Lisans Tezi. Türkiye.
- Harold A. R. (2004). Cam Design Handbook. Dean Emeritus College of Science and Engineering Fairleigh Dickinson University Teaneck, New Jersey, s. 1-58.
- Chakraborty, J., Dhande, S. G. (1977). Kinematics and geometry of planar and spatial cam mechanisms, JohnWiley & Sons, New York.
- Dhande, S. G., Bhodoria, B. S., Chakraborty, J. (1975). A unified approach to the analytical design of three dimensional cam mechanisms. Journal of Engineering for Industry, 97:327–333.
- MA, G. (1994). Synthesis of Contact Surfaces of Spherical Cam-Oscillating Roller-Follower Mechanisms: A General Approach. Journal of Mechanical Design, 116(1), 315-31
- Yan, H. S., & Chen, H. H. (1994). Geometry design and machining of roller gear cams with cylindrical rollers. Mechanism and Machine Theory, 29(6), 803-812.
- Tasy, D. M. and Hwang, G. S. (1994). Application of the theory of envelope of the determination of camoid profiles with translating followers. ASME J. Mech. Des., 116, s.320–325.
- Sutphin J. (2005). Autocad 2006 VBA: A Programmer’s Reference. New York, ABD, s.143-203.