Study on Operating Vibration Characteristics of Different No-Tillage Planter Row Units in Wheat Stubble Fields

Study on Operating Vibration Characteristics of Different No-Tillage Planter Row Units in Wheat Stubble Fields

The complex field environment under conservation tillage aggravates the vibration during a planter’s operation, affecting the sowing quality and fertilization depth. Studying its vibration characteristics can help to realize active vibration reduction control of planter row units. To this end, this...

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Bibliographic Details
Published in:Agriculture (Basel) Vol. 14; no. 11; p. 1878
Main Authors: Gao, Yuanyuan, Yang, Yifei, Hu, Yongyue, Han, Xing, Feng, Kangyao, Li, Peiying, Wei, Xinhua, Zhai, Changyuan
Format: Journal Article
Language:English
Published: Basel MDPI AG 24-10-2024
Subjects:
Acceleration
Agricultural equipment
Agricultural practices
Amplitudes
Conservation tillage
Control algorithms
Excitation
Fertilization
Height
Impact analysis
Low speed
Optimization
Resonant frequencies
Stubble
Tillage
Vibration
Vibration analysis
Vibration control
Weight
Working conditions
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Summary:The complex field environment under conservation tillage aggravates the vibration during a planter’s operation, affecting the sowing quality and fertilization depth. Studying its vibration characteristics can help to realize active vibration reduction control of planter row units. To this end, this paper took a four-row no-till planter as the research object. By establishing a field vibration model of the planter row unit, the factors affecting the vibration of the unit were clarified, and stubble height, working speed and the additional weight of the planter were used as experimental factors in carrying out field orthogonal experiments. In our experiment, we collected and analyzed vibration data on the four-row planter row units and the frame at different positions to explore the influence of various factors on the vibration characteristics of the planter. The experimental results showed that the working speed was the most important factor affecting the vibration of the planter, and the impact of stubble height and additional weight on the amplitude of the planter was more significant at low speed (1.5 m/s) than that at high speed (2.5 m/s). The difference in amplitude of each planter unit in the lateral direction was the largest, the average amplitude range of which was 1.898 m/s2. The vibration energy of each planter row unit under different working conditions was mainly concentrated in the range of 10–50 Hz. However, the three-point hitch of the planter transmitted the vibration excitation of the tractor, causing 110–120 Hz high-frequency vibration of the inner row units, while the outer row units were less affected, with the vibration energy, in the range above 100 Hz, being 2.5 dB smaller than that on the inner side. The right ground wheel transmission device was abnormal, which worked together with the excitation transmitted by the three-point hitch, making the average vibration acceleration amplitude of the planter row units on the right side in the lateral direction more than 0.522 m/s2 higher than that of the units on the left side. Therefore, different vibration reduction forces need to be applied according to the position of the planter row unit, so that the units can avoid the natural frequency of the frame (115 Hz) when vibrating. This study can provide a reference for active vibration reduction control and improvements in sowing quality for high-speed no-till planters.
ISSN:2077-0472
2077-0472
DOI:10.3390/agriculture14111878