Kinematics and statics analysis for power flow planet gear trains

Zhonghong Bu; Geng Liu; Liyan Wu; Zengmin Liu

doi:10.1007/978-1-84800-239-5_62

Kinematics and statics analysis for power flow planet gear trains

Zhonghong Bu
, Geng Liu
, Liyan Wu
, Zengmin Liu

School of Mechanical Engineering

Northwestern Polytechnical University Xian

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

In order to analyze the kinematics and statics load problems effectively, a new method to solve the kinematics and statics load parameters is proposed according to basic kinematics equations of planet gear transmissions, based on dividing the system into fundamental kinematics unit. The angular velocity and torque equations considering the efficiency for power flow planet gear trains are developed and expressed with matrix formulations. The tangent mesh force of gear pairs, the bearing force which is applied by the planet on the carrier and the system efficiency are solved simultaneously. A typical power flow planet gear system is also demonstrated to highlight the capabilities of the proposed formulation, and the influence/effect of efficiency on power flow is also analyzed.

Original language	English
Title of host publication	Global Design to Gain a Competitive Edge
Subtitle of host publication	An Holistic and Collaborative Design Approach Based on Computational Tools
Publisher	CSREA Press
Pages	631-639
Number of pages	9
ISBN (Print)	9781848002388
DOIs	https://doi.org/10.1007/978-1-84800-239-5_62
State	Published - 2008
Event	Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools - Sanya, Hainan, China Duration: 14 Jan 2008 → 16 Jan 2008

Publication series

Name	Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools

Conference

Conference	Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools
Country/Territory	China
City	Sanya, Hainan
Period	14/01/08 → 16/01/08

Keywords

Kinematics
Matrix formulation
Planet gear trains
Power flow
Statics

Access to Document

10.1007/978-1-84800-239-5_62

Cite this

Bu, Z., Liu, G., Wu, L., & Liu, Z. (2008). Kinematics and statics analysis for power flow planet gear trains. In Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools (pp. 631-639). (Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools). CSREA Press. https://doi.org/10.1007/978-1-84800-239-5_62

Bu, Zhonghong ; Liu, Geng ; Wu, Liyan et al. / Kinematics and statics analysis for power flow planet gear trains. Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools. CSREA Press, 2008. pp. 631-639 (Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools).

@inproceedings{6449a3354d9049499e852707d3916a32,

title = "Kinematics and statics analysis for power flow planet gear trains",

abstract = "In order to analyze the kinematics and statics load problems effectively, a new method to solve the kinematics and statics load parameters is proposed according to basic kinematics equations of planet gear transmissions, based on dividing the system into fundamental kinematics unit. The angular velocity and torque equations considering the efficiency for power flow planet gear trains are developed and expressed with matrix formulations. The tangent mesh force of gear pairs, the bearing force which is applied by the planet on the carrier and the system efficiency are solved simultaneously. A typical power flow planet gear system is also demonstrated to highlight the capabilities of the proposed formulation, and the influence/effect of efficiency on power flow is also analyzed.",

keywords = "Kinematics, Matrix formulation, Planet gear trains, Power flow, Statics",

author = "Zhonghong Bu and Geng Liu and Liyan Wu and Zengmin Liu",

year = "2008",

doi = "10.1007/978-1-84800-239-5\_62",

language = "英语",

isbn = "9781848002388",

series = "Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools",

publisher = "CSREA Press",

pages = "631--639",

booktitle = "Global Design to Gain a Competitive Edge",

note = "Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools ; Conference date: 14-01-2008 Through 16-01-2008",

}

Bu, Z, Liu, G, Wu, L & Liu, Z 2008, Kinematics and statics analysis for power flow planet gear trains. in Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools. Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools, CSREA Press, pp. 631-639, Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools, Sanya, Hainan, China, 14/01/08. https://doi.org/10.1007/978-1-84800-239-5_62

Kinematics and statics analysis for power flow planet gear trains. / Bu, Zhonghong; Liu, Geng; Wu, Liyan et al.
Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools. CSREA Press, 2008. p. 631-639 (Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Kinematics and statics analysis for power flow planet gear trains

AU - Bu, Zhonghong

AU - Liu, Geng

AU - Wu, Liyan

AU - Liu, Zengmin

PY - 2008

Y1 - 2008

N2 - In order to analyze the kinematics and statics load problems effectively, a new method to solve the kinematics and statics load parameters is proposed according to basic kinematics equations of planet gear transmissions, based on dividing the system into fundamental kinematics unit. The angular velocity and torque equations considering the efficiency for power flow planet gear trains are developed and expressed with matrix formulations. The tangent mesh force of gear pairs, the bearing force which is applied by the planet on the carrier and the system efficiency are solved simultaneously. A typical power flow planet gear system is also demonstrated to highlight the capabilities of the proposed formulation, and the influence/effect of efficiency on power flow is also analyzed.

AB - In order to analyze the kinematics and statics load problems effectively, a new method to solve the kinematics and statics load parameters is proposed according to basic kinematics equations of planet gear transmissions, based on dividing the system into fundamental kinematics unit. The angular velocity and torque equations considering the efficiency for power flow planet gear trains are developed and expressed with matrix formulations. The tangent mesh force of gear pairs, the bearing force which is applied by the planet on the carrier and the system efficiency are solved simultaneously. A typical power flow planet gear system is also demonstrated to highlight the capabilities of the proposed formulation, and the influence/effect of efficiency on power flow is also analyzed.

KW - Kinematics

KW - Matrix formulation

KW - Planet gear trains

KW - Power flow

KW - Statics

UR - https://www.scopus.com/pages/publications/77957364500

U2 - 10.1007/978-1-84800-239-5_62

DO - 10.1007/978-1-84800-239-5_62

M3 - 会议稿件

AN - SCOPUS:77957364500

SN - 9781848002388

T3 - Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools

SP - 631

EP - 639

BT - Global Design to Gain a Competitive Edge

PB - CSREA Press

T2 - Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools

Y2 - 14 January 2008 through 16 January 2008

ER -

Bu Z, Liu G, Wu L, Liu Z. Kinematics and statics analysis for power flow planet gear trains. In Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools. CSREA Press. 2008. p. 631-639. (Global Design to Gain a Competitive Edge: An Holistic and Collaborative Design Approach Based on Computational Tools). doi: 10.1007/978-1-84800-239-5_62

Kinematics and statics analysis for power flow planet gear trains

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