Equidistant & Radial-moving Modifications of Cycloidal Gear Tooth Profiles Used in RV Reducer Based on Optimized Carrying Capacity

被引：1

作者：

Lu L. ^{[1
]}

Zhang F. ^{[1
]}

Tang H. ^{[1
]}

Wan Z. ^{[1
]}

Tang Y. ^{[1
]}

机构：

[1] School of Mechanical and Automotive Engineering, South China University of Technology, Guangzhou

来源：

Zhongguo Jixie Gongcheng/China Mechanical Engineering | 2019年 / 30卷 / 17期

关键词：

Carrying capacity; Composite modification; Cycloidal gear; RV reducer;

D O I：

10.3969/j.issn.1004-132X.2019.17.002

中图分类号：

学科分类号：

摘要：

Combined the traditional equidistant modification method and radial-moving modification method, a new composite modification method of equidistant & radial-moving(ERM) for cycloidal teeth was proposed based on optimized carrying capacity. Taking the cycloidal pin of a RV-40E reducer in industrial robots as an example, the mechanics analysis of the transmission was carried out, aiming at optimal carrying capacity, the mathematical model of the cycloidal profile modifications was established as well as optimized by the grid method. Finally, the ERM modification tooth profiles of cycloidal gears were obtained by using numerical solution. The processing technology of cycloidal gears was designed. A cycloidal gear optimized by ERM modifications and a cycloidal gear designed by traditional fitting angle(TFA) modifications used as a comparison were manufactured respectively, and their corresponding RV reducers were assembled to conduct performance tests respectively. The testing results show that the transmission efficiency of the new RV reducer made from the cycloidal gears modified by ERM method is as high as 85%. Compared with the RV reducer made from the cycloidal gears modified by TFA method, the noise and temperature rise of the new RV reducers are evidently reduced under the heavy load conditions. Overall, the carrying capacity of the new RV reducers is improved significantly. © 2019, China Mechanical Engineering Magazine Office. All right reserved.

引用

页码：2022 / 2029

页数：7

共 18 条

[1] Sahu S., Choudhury B.B., Biswal B.B., A Vibration Analysis of a 6 Axisindustrial Robot Using FEA, Materials Today: Proceedings, 4, 2, pp. 2403-2410, (2017)
[2] Erds G., Kovacs A., Vancza J., Optimized Joint Motion Planning for Redundant Industrial Robots, CIRP Annals: Manufacturing Technology, 65, 1, pp. 451-454, (2016)
[3] Valente A., Baraldo S., Carpanzano E., Smooth Trajectory Generation for Industrialrobots Performing High Precision Assembly Processes, CIRP Annals: Manufacturing Technology, 66, 1, pp. 17-20, (2017)
[4] Stenmark M., Malec J., Knowledge-based Instruction of Manipulation Tasks for Industrial Robotics, Robotics and Computer-Integrated Manufacturing, 33, pp. 56-67, (2015)
[5] Zhang Y., He W., Xiao J., Dynamical Model of RV Reducerand Key Influence of Stiffness to the Nature Character, Information and Computing, International Conference on Information and Computing, pp. 192-195, (2010)
[6] Chu X., Xu H., Wu X., Et al., The Method of Selective Assembly for the RV Reducer Based on Genetic Algorithm, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 232, 6, pp. 921-929, (2018)
[7] He W., Shan L., Research and Analysis on Transmission Error of RV Reducer Used in Robot, Mechanisms and Machine Science, 33, pp. 231-238, (2015)
[8] Neagoe M., Diaconescu D., Pascale L., Et al., On the Efficiency of a Cycloidal Planetary Reducer with a Modified Structure, International Conference on Economic Engineering and Manufacturing Systems, pp. 544-549, (2017)
[9] Wang J., Luo S., Su D., Multi-objective Optimal Design of Cycloid Speedreducer Based on Genetic Algorithm, Mechanism and Machine Theory, 102, pp. 135-148, (2016)
[10] Hsieh C.F., Traditional Versus Improved Designs for Cycloidal Speed Reducers with a Small Tooth Difference: the Effect on Dynamics, Mechanism and Machine Theory, 86, pp. 15-35, (2015)

← 1 2 →