The Cleaning Performance Simulation of Rear Rolling Type Sweeper

Zhi Qiang Wang; Xue Liang Bian; You Ning Feng

doi:10.4028/www.scientific.net/AMM.385-386.281

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 385-386The Cleaning Performance Simulation of Rear...

The Cleaning Performance Simulation of Rear Rolling Type Sweeper

Abstract:

Through analyzed the cleaning process of rear rolling type sweeper, the theoretical model of waste particle trajectory was established during the sweeper working process by using the contact theory of modern contact dynamics, and the ideal theory track of waste particle was simulated and optimized by using MATLAB. The three-dimensional solid model of the working device was created by using UG software, and virtual prototype model was completed by using ADAMS software, and rigid brush was replaced by neutral file with brush features characterize that was generated by finite element analysis software, and contact relationship of waste particle during the working process was added by ADAMS contact order, and rigid-flexible coupling virtual prototype system was completed and kinematics simulation was run. Finally, compared the trajectory curve from ADAMS simulation with the theoretical path from MATLAB, the Theoretical model was proved correctness. The theoretical research and simulation analysis was made test and verify each other. Facilitate the development of the same type of products.

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Periodical:

Applied Mechanics and Materials (Volumes 385-386)

Pages:

281-287

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.385-386.281

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Online since:

August 2013

Authors:

Zhi Qiang Wang, Xue Liang Bian, You Ning Feng

Keywords:

Rear Rolling Type, Rigid-Flexible Coupling, Simulation Analysis, Sweeper

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References

[1] Jiemin Lai, Technology Improvements and Practical Effects of Pure Broom Sweeper, Road Machinery & Construction Mechanization, April (1999).

Google Scholar

[2] Qinghai Ding and Dawei Xu, The Simulation of Small Electric Cars Sweeping Brush Cleaning Process Based on ADAMS, Special Vehicle, October (2009).

Google Scholar

[3] Qiming Zhang, The development of road sweeper, Highway and Transportation Engineering, 2008(8).

Google Scholar

[4] Jiemin Lai, Upright brush-type sweeper Binocular, Patent Documentation Press, October (1999).

Google Scholar

[5] Peter · Eberhardt and Bin Hu, Modern Contact Dynamics, Nanjing: Southeast University Press, February (2003).

Google Scholar

[6] Meng Chen, Contact-impact Dynamics Based on Virtual Prototype Simulation, Huazhong University of Science, November (2003).

Google Scholar

[7] Zuiwei Xie and Xinyue Wu, The Crash Simulation Analysis Based on ADAMS, CAE Engineering Analysis of the Third China Technical Conference Proceedings, 2007(7).

Google Scholar