Research on Even-Loading Mechanism of Multi-Planetary Gear Transmission

Kun Li Mao

doi:10.4028/www.scientific.net/AMR.834-836.1476

Paper Titles

An Engineering Drawing Retrieval Method Based on Spherical Harmonics
p.1455

Numerical Analysis on Mechanical Property of Bolted Joint
p.1459

The Optimization Design of Arm Bracket Structure Topology Based on ANSYS
p.1464

Design and Analysis of Rack-Torsional Hydraulic Straightening Machine
p.1470

Research on Even-Loading Mechanism of Multi-Planetary Gear Transmission
p.1476

Research on Dynamic Simulation and Analysis of NGW Planetary Gear Train Based on ANSYS
p.1480

Study on Failure Trend of L-Type Deflection Machine Structure on Basis of Static Strength Analysis
p.1484

Static and Dynamic Characteristic Analysis for the HSR Series Linear Motion Guide
p.1488

Study on the Effect of Cone Diameter on the Cone Resistance and Steady Flow Force of Hydraulic Poppet Valve
p.1493

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Research on Even-Loading Mechanism of Multi-Planetary Gear Transmission

Abstract:

Multi-planetary gear transmission is usually used in construction equipment, metallurgical machinery and wind-driven generator. Driving mechanism of heavy-duty equipment without even-loading system is badly loading, resulting in great impact force and severe vibration. To study characteristic of power dividing, multi-planetary gear transmission without any even-loading mechanism and that with flexible pin even-loading mechanism were simulated in commercial gear drive design software and dynamics analysis software. The simulation results are shown in this paper and conclusions are drawn useful for design and manufacture of heavy-duty multi-planetary gear transmission.