[1] 饶振纲. 行星齿轮传动设计[M]. 北京:化学工业出版社, 2003. RAO Zhenggang. Planetary gear design[M]. Beijing:Chemical Industry Press,2003.
[2] 王三民,沈允文,孙智民. 基于动态损失功率的行星齿轮传动效率计算[J]. 机械传动,2001,25(2):4-8. WANG Sanmin,SHEN Yunwen,SUN Zhimin. Calculating efficiency of planetary transmission based on dynamic power losses[J]. Mechanical transmission,2001,25(2):4-8.
[3] 林建德. 基于图论的3K行星齿轮系传动比与传动效率分析[J]. 机械设计与研究,2004,20(5):39-41. LAM K T. The Analysis of the speed-ratio and mechanical efficiency in 3K type planetary gear trains based on graph theory[J]. Machine Design and Research,2004,20(5):39-41.
[4] 胡青春,段福海,莫海军. 复杂行星齿轮系运动学分析及效率计算[J]. 中国机械工程,2006,17(20):2125-2129. HU Qingchun,DUAN Fuhai,MO Haijun. Kinematic analysis and efficiency calculation for complex planetary gear train[J]. China Mechanical Engineering,2006,17(20):2125-2129.
[5] 焦万铭,马飞,杨耀东,等. 行星齿轮变速箱传动比及效率的计算[J]. 机械传动,2012,36(12):114-116. JIAO Wanming,MA Fei,YANG Yaodong,et al. Calculation of transmission ratio and efficiency of planetary gear box[J]. Mechanical Transmission,2012,36(12):114-116.
[6] CHEN Xiaoan,CHEN Hong. Analytical geometry method of planetary gear trains[J]. Sci. China Tech. Sci.,2012,55(4):1007-1021.
[7] 陈宏,陈小安,李云松. 复杂与封闭行星齿轮机构运动学分析的新方法[J]. 现代科学仪器,2012,5:35-39. CHEN Hong,CHEN Xiaoan,LI Yunsong. New method for kinematic analysis of complex and closed planetary gear trains[J]. Modern Scientific Instruments,2012,5:35-39.
[8] PENNESTRÌ E,VALENTINI P P. A review of formulas for the mechanical efficiency analysis of two degrees-of-freedom epicyclic gear trains[J]. ASME Journal of Mechanical Design,2003,125:602-608.
[9] PENNESTRÌ E,MARITI L,VALENTINI P P,et al. Efficiency evaluation of gearboxes for parallel hybrid vehicles:theory and applications[J]. Mechanism and Machine Theory,2012,49:157–176.
[10] Del PIO G,PENNESTRÌ E,VALENTINI P P. Kinematic and power-flow analysis of bevel gears planetary gear trains with gyroscopic complexity[J]. Mechanism and Machine Theory,2013,70:523-537.
[11] Del CASTILLO J M. The analytical expression of the efficiency of planetary gear trains[J]. Mechanism and Machine Theory,2002,37:197-214.
[12] SALGADO D R,Del CASTILLO J M. Selection and design of planetary gear trains based on power flow maps[J]. Journal of Mechanical Design,2005,127(1):120-134.
[13] SALGADO D R,Del CASTILLO J M. Analysis of the transmission ratio and efficiency ranges of the four-,five-,and six-link planetary gear trains[J]. Mechanism and Machine Theory,2014,73:218-243.
[14] KAHRAMAN K K,LIGATA H,ZINI D M. A kinematics and power flow analysis methodology for automatic transmission planetary gear trains[J]. Journal of Mechanical Design,2004,126 (6):1071-1081.
[15] CSOBÁN A,KOZMA M. Influence of the oil churning,the bearing and the tooth friction losses on the efficiency of planetary gears[J]. Journal of Mechanical Engineering,2010,56(4):231-238.
[16] LAUS L P,SIMAS H,MARTINS D. Efficiency of gear trains determined using graph and screw theories[J]. Mechanism and Machine Theory,2012,52:296-325.
[17] CHEN C,ANGELES J. Virtual power flow and mechanical gear-mesh power losses of epicyclic gear trains[J]. Journal of Mechanical Design,2007,129(1):107-113.
[18] CHEN C,LIANG T T. Theoretic study of efficiency of two DOFs of epicyclic gear transmission via virtual power[J]. Journal of Mechanical Design,2011,133(3):031007-031013.
[19] PU H Y,ZHAO J L,MA S G,et al. Efficiency analysis of epicyclic gear mechanism of the improved ePaddle mechanism via virtual power[J]. Proc. of the IEEE Intl. Conf. on Robotics and Biomimetics,2013,1:2239-2244.
[20] CHEN C. Power flow analysis of compound epicyclic gear transmission:Simpson gear train[J]. Journal of Mechanical Design,2011,133(9):1-5.
[21] CHEN C. Power flow and efficiency analysis of epicyclic gear transmission with split power[J]. Mechanism and Machine Theory,2013,59:96-106. |