Keywords
UG
3D design
Reuse library
Submitted : 2023-12-30
Accepted : 2024-01-14
Published : 2024-01-29
Abstract
Sprocket chain drive is a common transmission mode in mechanical engineering that is widely used. However,due to the complexity of sprocket chain manufacturing, the three-dimensional design and motion simulation and analysisusing modern engineering software are time-consuming, and a great deal of calculations are needed. Therefore, it is ofgreat significance to develop a sprocket chain reuse library based on the modern engineering software Unigraphics. Amongthem, the sprocket design library was designed many years ago and published relevant papers (establishment of sprocketparametric modeling and reuse library based on UG). Therefore, this time, the chain reuse library is mainly establishedfor sleeve roller chains that meet the national standard (GB/t1243-2006), With the sprocket reuse library, 3D models canbe established and assembled rapidly. The system was proven to be efficient and reliable through numerous engineeringdesign verifications. This system makes engineering design, 3D assembly, and motion simulation easier and provides areference for the development of other complex computing systems.
References
Li J, Zhong Q, Cheng Y, 2012, Parametric Modeling of Sprocket and Establishment of Reuse Library Based on UG. Mechanical Drive, 2012(9): 57–62.
Zhang Z, Liu H, Tie X, et al., 2018, Influence of Load Ratio of Tapered Roller Bearings on Life. Bearing, 2018(6): 28–32 + 39.
Li R, Duan B, Yang M, et al., 2018, Load Distribution and Life Calculation of Double Row Tapered Roller Bearings for Wind Turbines. Bearing, 2018(5): 1–6.
Liu G, Yang J, Yang X, et al., 2018, Life Modified of Cross Universal Joint Bearing with Considering Clearance and Deflection. Journal of Mechanical Transmission, 42(9): 36–41.
Lu L, Yu Y, Zeng G, 2017, Fatigue Life Comparative Analysis of Rolling-sliding Bearing based on nCode DesignLife. Journal of Mechanical Transmission, 41(3): 114–119.
Yu S, Wu T, Luo J, 2016, Introduction to MATLAB GUI Design and Practical, Tsinghua University Press, Beijing.
Wang G, Xing L, 2018, MATLAB GUI Design, Tsinghua University Press, Beijing.
Qin D, Xie L, 2011, Modern Mechanical Design Manual, Chemical Industry Press, Beijing.
Mechanical Engineering Material Performance Data Book Editorial Board, (eds)1995, Mechanical Engineering Material Properties Data Manual China Machine Press, Beijing.
Chen J, 2004, Digital Design of Bearings and its Application of High-Speed Ceramic Ball Bearing in the Structural Parameter Design, dissertation, Tianjin University, Tianjin.
Liu Z, 2014, Application Manual of Rolling Bearing, China Machine Press, Beijing.
Okamoto J, 2003, Design Calculation of Ball Bearing, [Huang Z Trans], China Machine Press, Beijing.
Pu L, Chen G, Wu L, et al., 2019, Mechanical Design, Higher Education Press, Beijing, 330–332.
Yang X, 1995, Effect of Groove Radius Coefficient on Load Capacity of Deep Groove Ball Bearing. Bearing, 1995(6): 5–7.
Ye Z, Zhu Z, Zhang Q, et al., 2016, Fatigue Life Calculation Method of Angular Contact Ball Bearing Based on Equivalent Contact Load. Mechanical and Electrical Technology, 2016(4): 17–19.
Ji B, Jing M, Liu H, et al., 2016, Fatigue Life Analysis and Research on Double Row Angular Contact Ball Bearing. Mechanical Design & Manufacturing, 2014(10): 26–28 + 31.