Author
Listed:
- Depeng Li
(Key Laboratory of Modern Agricultural Equipment and Technology, Ministry of Education, Jiangsu University, Zhenjiang 212013, China)
- Zhiming Wang
(Key Laboratory of Crop Harvesting Equipment Technology of Zhejiang Province, Jinhua Polytechnic, Jinhua 321017, China)
- Zhenwei Liang
(Key Laboratory of Modern Agricultural Equipment and Technology, Ministry of Education, Jiangsu University, Zhenjiang 212013, China
Key Laboratory of Crop Harvesting Equipment Technology of Zhejiang Province, Jinhua Polytechnic, Jinhua 321017, China)
- Fangyu Zhu
(Key Laboratory of Modern Agricultural Equipment and Technology, Ministry of Education, Jiangsu University, Zhenjiang 212013, China)
- Tingbo Xu
(Key Laboratory of Modern Agricultural Equipment and Technology, Ministry of Education, Jiangsu University, Zhenjiang 212013, China)
- Xinyang Cui
(Key Laboratory of Modern Agricultural Equipment and Technology, Ministry of Education, Jiangsu University, Zhenjiang 212013, China)
- Peigen Zhao
(Key Laboratory of Modern Agricultural Equipment and Technology, Ministry of Education, Jiangsu University, Zhenjiang 212013, China)
Abstract
Grain loss in the harvesting process of combine harvesters not only causes economic losses to farmers but also affects the soil environment because of the lost grain covering the soil, influencing crop growth in the next season. Grain sieve loss-monitoring sensors represent an important accessory in combine harvesters, as they can not only provide current grain loss levels for the operator to adopt a rational action in time but also serve as an important performance signal for the control system. To reflect the rice grain sieve loss level of combine harvesters in real time, an indirect grain sieve loss-monitoring system is proposed in this paper. First, the grain collision rise time was obtained by the finite element method (FEM), and the parameters of the grain loss sensor signal processing circuit were determined accordingly to upgrade the monitoring accuracy. Then, grain loss distribution behind the cleaning shoe was analyzed in detail under different working parameters. Grain loss distribution functions at the end of the sieve and a monitoring mathematical model with relevant variables were established based on the laboratory experiment results. Finally, calibration experiments were carried out to verify the measurement accuracy of the sensor on a cleaning test bench, with an obtained relative monitoring error ≤6.41 % under different working conditions.
Suggested Citation
Depeng Li & Zhiming Wang & Zhenwei Liang & Fangyu Zhu & Tingbo Xu & Xinyang Cui & Peigen Zhao, 2022.
"Analyzing Rice Grain Collision Behavior and Monitoring Mathematical Model Development for Grain Loss Sensors,"
Agriculture, MDPI, vol. 12(6), pages 1-14, June.
Handle:
RePEc:gam:jagris:v:12:y:2022:i:6:p:839-:d:836110
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Citations
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Cited by:
- Xiaohu Guo & Shiguo Wang & Shuren Chen & Bin Li & Zhong Tang & Yifan Hu, 2024.
"Impact of Structural Parameters on the Collision Characteristics and Coefficient of Restitution of Soybean Particles on Harvester’s Cleaning Screens,"
Agriculture, MDPI, vol. 14(7), pages 1-25, July.
- Xu Chen & Xun He & Wanzhang Wang & Zhe Qu & Yuan Liu, 2022.
"Study on the Technologies of Loss Reduction in Wheat Mechanization Harvesting: A Review,"
Agriculture, MDPI, vol. 12(11), pages 1-18, November.
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