TQLZ Self-Balance Vibrating Screen Static and Modal Analysis

Xin Yong Liu; Hong Bin Cui; Peng Xian Cao; Xue Chun Bao; Xin Yu Liu

doi:10.4028/www.scientific.net/AMR.852.619

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 852TQLZ Self-Balance Vibrating Screen Static and...

TQLZ Self-Balance Vibrating Screen Static and Modal Analysis

Abstract:

A simplified model of self-balance screen was constructed by using SolidWorks, and then imported into the Simulation to analysis its structure and modal. The stress distribution, deformation and structural natural frequency, mode shapes under static loads of the self-balance vibrating screen were calculated to provide theoretical basis for the following analysis of the dynamic characteristics and structure optimization design of vibrating screen.

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Periodical:

Advanced Materials Research (Volume 852)

Pages:

619-623

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.852.619

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Online since:

January 2014

Authors:

Xin Yong Liu, Hong Bin Cui, Peng Xian Cao, Xue Chun Bao, Xin Yu Liu

Keywords:

Finite Element, Modal Analysis, Static Analysis, Vibrating Screen

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References

[1] Liu Shaowen. Design of TQLZ Vibrating Screen[J] Cereal & Feed Industry, 1992（6）: 15-17.

Google Scholar

[2] Zhao Huanshuai, Bao Yuxin, Chen Siyuan. Current situation and development tendency of high-frequency vibration screen technology and equipments at home and abroad[J]. Mining Machinery, 2011（10）: 83-87.

Google Scholar

[3] Wen Bangchun. Theory of Mechanical Vibration and Its Applications[M]. BeiJing: China Machine Press, 1980: 344-377.

Google Scholar

[4] Zhang Zongxiang, Xu Jianping. Development of TQLZ Vibrating Screen[J]. Mining Machinery, 1994: 21-29.

Google Scholar

[5] Yan Xiaomin, Ren Jiajun, Liu Jun. SYK2445 Circle Vibrating Screen Structure and Modal Analysis[J]. Coal Ming Machinery. 2013（4）: 114-116.

Google Scholar

[6] Cheng Daxian, Handbook of Mechanical Design[M], BeiJing: Chemical Industry Press, (2002).

Google Scholar

[7] Wang Zhaokun. Modal Characteristic Analysis of Vibrating Screen Based on FEM[J]. Coal Ming Machinery. 2007（9）: 68-69.

Google Scholar