Design of Rigid Vertical Shaft Guide Testing System Based on MATLAB

Fei Peng Zhou; Xing Ming Xiao; Yu Qiang Jiang; Chang Xiang Zheng

doi:10.4028/www.scientific.net/AMR.466-467.1036

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 466-467Design of Rigid Vertical Shaft Guide Testing...

Design of Rigid Vertical Shaft Guide Testing System Based on MATLAB

Abstract:

Shaft guide is detected mainly by a static test method ,but it need much time to detect and practical experience of the technical person for most of the mine. This paper designs a testing system based on matlab to solve this problem and introduces the system’s survey principle. The dynamic parameters of shaft is measured by tilt sensors, acceleration transducer and displacement sensor separately, the relations between the shaft rigid’s parameters and breakdown is analysed. The selection and design of hardware system is rational as well as software’s function, the system has strong practicability.

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Periodical:

Advanced Materials Research (Volumes 466-467)

Pages:

1036-1040

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.466-467.1036

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Online since:

February 2012

Authors:

Fei Peng Zhou, Xing Ming Xiao, Yu Qiang Jiang, Chang Xiang Zheng

Keywords:

Detection, Sensor, Shaft Guide

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References

[1] Xingming Xiao, Peng Wang. Brief analysis on test method for cage guide in mine shaft [J]. Coal Science and Technology. 2004, 12: 36-38. G.

Google Scholar

[2] Yanmei Chen. Simple method and precision analysis of the shaft guide deformation[J]. West-china Exploration Engineering. 2003, 04: 89-90.

Google Scholar

[3] Hui Ji, Xingming Xiao, Zhengquan Liu. Design of guide testing platform[J]. Coal Mine Machinery. 2007, 11: 25-27.

Google Scholar

[4] Yuqiang Jiang, Lirong Sun, Xingming Xiao. The design of mine shaft steel guide dynamic test system based on virtual instrument technology[J]. 2009, 07: 03-06.

Google Scholar

[5] Pretorius T S, Mercer CD, Martin J B. Slamming Analysis of Mine Skips[J]. CM Bulletin, 2006, 77(871): 39-44.

Google Scholar

[6] Krige G J. Some initial findings on the behaviour and design of mine-shaft steelworksand conveyance[J], Journal of the south African institute of mining and metallurgy, 2009, 6: 205-215.

Google Scholar

[7] Jiang Y D, Golosinski T S. Measurement data processin techniques in decelerometer shaft inspections, In: W.T. Hennies eds, Fifth international symposium on mine planning an equipment selection[C], Sao Paulo, Brazil, 1996: 205-208.

Google Scholar

[8] Redpath J. S, Shaver W M. Toward a better understanding of mine shaft guides[J], CM Bulletin, 2000, 70(787): 93-102.

Google Scholar

[9] Galloway L. C, Tiley P.M. The performance of Fixed Guidance Systems in Mine Shafts, CIM Bullitin[J], 1982, 11：582-602.

Google Scholar

[10] Ahmed A. Jerraya, Wayne Wolf. Hardware/Software Interface Codesign for Embedded Systems[J]. IEEE computer Society, 2005. 2(38).

DOI: 10.1109/mc.2005.61

Google Scholar