|
|
Articles:2013,Vol:18,Issue(2):80-86 |
|
|
Citation: |
|
|
DU Jin-fu, FANG Zong-de, DONG Hao. Power Splitting Behavior of Star Gearing Based on Deformation Compatibility[J]. International Journal of Plant Engineering and Management, 2013, 18(2): 80-86 |
|
|
|
|
|
|
|
| Power Splitting Behavior of Star Gearing Based on Deformation Compatibility |
|
| DU Jin-fu, FANG Zong-de, DONG Hao |
|
| School of Mechatronics,Northwestern Polytechnical University,Xi'an 710073,P. R. China |
| Abstract: |
| The deformation compatibility equations and the torque balance equations of star gearing with three branches have been found based on the characteristic that the system composes a closed-loop of power flow. In consideration of the parts manufacturing errors,assembly errors,bearing stiffness and float,the power splitting rate of each star gear and the system were calculated by using the theory of equivalent mesh error. The effects of the errors,float and the bearing stiffness on power splitting were studied. The study provides a useful theoretical guideline for the design of star gearing. |
| Key words:
star gearing
deformation compatibility
power splitting
errors
float
|
|
| Received: 2013-04-10
Revised:
|
| DOI: |
| Funds: This paper is supported by the Natural Science Foundation of China (51175424) |
| Corresponding author:
Email: |
| Author description:
|
|
|
|
|
|
|
|
References: |
|
|
[1] Shigeo Shigeo Y,Yoshikatsu N,Akira O,et al.Share loads in a star type epicyclic gear train[C]. Japanese Mechanical Academic Society Collection,1989, 55 (513):1265~1270
[2] Sikorsky K G.Aircraft Advanced Rotorcraft Trans-mission(ART) Program Final Report[R]. NA-SACR 191079, NASA lewis research center, 1993
[3] Krantz T L.A Method to Analyze and Opti-mize the Load Sharing of Split Path Transmis-sions[R]. NASA technical memorandum,107201, 1996
[4] Krantz T L,Delgado I R.Experimental Study of Split Path Transmission Load Sharing[R].NASA technical memorandum, 107202, 1996
[5] Masanobu Y,Shigeo Y,Hideyuki S.Self-centering characteristics of floating sun gear in a star-type planetary gear train[C]. Japa-nese Mechanical Academic Society Collec-tion, 1997, 63(611):2270~2277
[6] Fang Z D, Shen Y W, Huang Zhendong.The dynamic behavior of star gearing with three branches[J]. ACTA Aeronautica et Astro-nautica Sinica, 1990, 11(7):429~433.(In Chinese)
[7] Sun Z M, Shen Y W, Wang S M, et al.Non-linear dynamic modeling and dynamic tooth loads analysis of star gearing system[J]. Jour-nal of Aerospace Power,2001, 16(4):402~407.(In Chinese)
[8] Bao H Y.Study on load-split characteristics and dynamics of two-stage star gear trains[D].Nanjing.Nanjing University of Aeronautics and Astronautics, 2006.(In Chinese)
[9] Bao H Y,Zhu R P.Floating displacement static analysis of basic floating part of 2-stage star gear train[J]. J.Cent.South Univ.(sci-ence and technology),2006, 37(3):553~557.(In Chinese)
[10] Yuan Q Y,Zhu R P,Zhu Z B,et al.Analy-sis of static load sharing in a 2-stage star gear system [J]. Mechanical Science and Tech-nology, 2004, 23(7):789~792
[11] Hidaka T,Sugimoto N,Ishida T.Effects of errors of elements on load distribution in plan-etary gears with various load equalizing mech-anisms[C]. Japanese Mechanical Academic Society Collection,1986, 52(480):2200~2206
[12] Teru H,Takashi T,Jiro I.Load balancing theory on a planetary gearing[C]. Japanese Mechanical Academic Society Collection,1970, 36(288):1394~1404 |
|
|
|
|
|
|
|
