Abstract
The vibration experiment of the sugarcane harvester is of significant value, and it is mainly done in the sugarcane field. This method has low efficiency, poor security and reliability. So, a sugarcane field excitation device is designed in this paper based on the sugarcane field excitation signal already collected. The dynamic characteristics of the sugarcane field excitation device are studied by using theoretical analysis, simulation analysis and experimental research methods. The multi-body dynamic model is studied by using rigid-flexible coupling simulation technology. Based on the simulation results, the sugarcane field excitation device is manufactured. The output frequency of the sugarcane field excitation device is calibrated by the speed calibration method. Finally, based on the experimental optimization results, the function of the sugarcane field excitation device is verified.
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Acknowledgements
Fund projects: 1. Middle-aged and Young Teachers’ Basic Scientific Research Ability Promotion Project of Guangxi Universities called Dynamic reverse design research on sugarcane harvesters for hilly areas based on dynamic characteristics of cutters (Project number: 2020KY17008) of China, 2020.
2. Major university-level research project of Wuzhou University called Reverse design method research on sugarcane harvesters for hilly areas based on dynamic characteristics of cutters (Project number: 2020B003) of China, 2020.
3. National Natural Science Foundation Project called Research on cutting system vibration characteristics of sugarcane harvesters under complicated excitations (Grant Number: 51465006) of China, 2014.
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Mo, H., Qiu, C., Li, S., He, G., Zeng, B., Yang, D. (2023). Emulational and Experimental Research on a Sugarcane Field Excitation Device. In: Zhang, H., Feng, G., Wang, H., Gu, F., Sinha, J.K. (eds) Proceedings of IncoME-VI and TEPEN 2021. Mechanisms and Machine Science, vol 117. Springer, Cham. https://doi.org/10.1007/978-3-030-99075-6_6
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