Applying Full Vector Spectrum for Electric Hoist Gearbox Fault Diagnosis

Hao Li; Xin Min Dong; Wang Sheng Hao; Ai Guo Liu; Xian De Yin; Ai Jun Wang

doi:10.4028/www.scientific.net/AMM.365-366.725

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 365-366Applying Full Vector Spectrum for Electric Hoist...

Applying Full Vector Spectrum for Electric Hoist Gearbox Fault Diagnosis

Abstract:

To resolve the noise and incomplete information of rotor vibration signals for electric hoist gearbox, the full vector spectrum technology is applied for information fusion and wavelet analysis. The full vector wavelet is used to de-noising process for the vibration signals, which extract the more complete characterization information of the noise signal. First, the dual-channel vibration signal wavelet decomposition and reconstruction, and then take advantage of the full vector spectrum technology fusion for the reconstructed signal. In this way, which ensure the integrity of the vibration signal feature information, more reliably reflect the vibration characteristics of the rotor, and improve the accuracy of fault diagnosis.

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Periodical:

Applied Mechanics and Materials (Volumes 365-366)

Pages:

725-728

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.365-366.725

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Online since:

August 2013

Authors:

Hao Li, Xin Min Dong, Wang Sheng Hao, Ai Guo Liu, Xian De Yin, Ai Jun Wang

Keywords:

Electric Hoist Gearbox, Full Vector Spectrum, Full Vector Wavelet Analysis, Vibration Signal, Wavelet De-Noising

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References

[1] Han Jie, Zhang Rulin. Fault mechanism and diagnosis technology of rotary machinery [M]. Beijing: China Machine press, 1997: 146-148.

Google Scholar

[2] Han Jie, Shi Laide. Full vector spectrum technology and its engineering application [M]. Beijing: China Machine Press, (2008).

Google Scholar

[3] Han Jie, Gong Xiaoyun, Chen Hong. Applying full vector spectrum for gear fault diagnosis. [J]. Chinese Journal of Construction Machinery 2010. 03: 81-85.

Google Scholar

[4] Yuan Haodong, Cheng Hong, Hou Yading. Intelligent diagnosis of rolling bearing based on full vector wavelet packet energy entropy [J]. Machinery Design & Manufacture 2012, 02: 233-255.

Google Scholar

[5] Gao Lihuan, Zhang Lina, Zhu Jianguo. Gearbox vibration signal de-noising processing based on wavelet analysis [J]. Mechanical transmission, 2010, 03: 50-22.

Google Scholar