Designs of Material Compactor Based on Vibration Theory

Qun Zhao; Jin Fang Zhao

doi:10.4028/www.scientific.net/AMR.700.187

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 700Designs of Material Compactor Based on Vibration...

Designs of Material Compactor Based on Vibration Theory

Abstract:

In this paper, a kind of material compactor was designed beginning with the recognition of energy conservation and low cost. Through the study of the influence factors and the mechanization of the material compaction at normal temperature, the author found out better parameters of influencing factors. The improved material compactor consists of a compression roller, backspin rolls, supporting device and other auxiliary devices. The eccentric block inside the compression is driven by the motor to generate exciting force. After the material enters the feeding inlet, it will be squeezed between the compression roller and the backspin rolls. Under the action of both extrusion pressure and vibration, the purpose of material compaction is achieved.

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Periodical:

Advanced Materials Research (Volume 700)

Pages:

187-190

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.700.187

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Online since:

May 2013

Authors:

Qun Zhao, Jin Fang Zhao

Keywords:

Eccentric Shaft, Material Compaction, Roller, Vibration

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References

[1] Q. Zhao, J.F. Zhao, C. Zhang, et al: Sensitivity analysis on powerflow transfer probability of double-deck isolation systems. Journal of Vibration, Measurement & Diagnosis Vol. 32(2012), pp.85-88

Google Scholar

[2] Q. Zhao, Y. M. Zhang, J.F. Zhao: Sensitivity analysis of powerflow transfer probability for a vibration transfer path system. Journal of Vibration and Shock Vol. 28(07) (2009), pp.183-186

Google Scholar

[3] Q. L. Meng: The optimum design of structural parameters for the extruding apparatus of the biomass briquette. Transactions of the CSAE Vol. 10(4) (1994), pp.142-147

Google Scholar

[4] M. Wang, K.Q. Guo, W.R. Zhu: A preliminary study on the preparation of pressurized straw briquette. Transactions of the CSAE Vol. 9(1) (1993), pp.142-147

Google Scholar

[5] J.T. Yang, B.L. Zhu, H.W. Liu: The compressing-formation theoretical analysis and the experiment research on the piston waferer. Journal of Agricultural Machinery Vol. 26(3) (1995), pp.51-57

Google Scholar

[6] X.S. Yao: Improved design wheel for vibrational body of vibratory roll. Product&Technology Vol. 5 (2007), pp.87-88

Google Scholar

[7] F.Q. Nie, X.H. Ba, C.L. Feng, et al: Manufacture of vibratory wheel of vibratory roller. Production-Manufacturing Vol. 10 (2004), pp.75-76

Google Scholar

[8] J.X. Xie: Seralization design of vibrating wheel components of rollers. Engineering Mechanics Vol. 9 (2003), pp.27-30

Google Scholar