Design and Performance Test of Variable-Capacity Spoon-Type Oat Precision Hill Seeder

Design and Performance Test of Variable-Capacity Spoon-Type Oat Precision Hill Seeder

Conventional oat seeders suffer from poor seeding uniformity, a large coefficient of variation in seed volume, and significant seed wastage. To address these issues, a variable-capacity spoon-type oat precision hill seeder was designed based on the agronomic requirements of oat hole seeding and the...

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Bibliographic Details
Main Authors: Wenxue Dong, Anbin Zhang, Fei Liu, Xuan Zhao, Yuxing Ren, Hongbin Bai, Dezheng Xuan, Xiang Kong, Shuhan Yang, Xu Yang
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Agriculture
Subjects:
oat
precision hill seeder
seed picking spoon
discrete element method
Online Access:https://www.mdpi.com/2077-0472/15/9/986
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Summary:Conventional oat seeders suffer from poor seeding uniformity, a large coefficient of variation in seed volume, and significant seed wastage. To address these issues, a variable-capacity spoon-type oat precision hill seeder was designed based on the agronomic requirements of oat hole seeding and the structural characteristics of hill seeders. Through force analysis and theoretical calculations, the angular velocity range of the variable-capacity spoon-type oat precision hill seeder was determined to be within 0–6.9 rad/s. An experiment was conducted using the angular velocity of the hill seeder, the inclination angle of the seed guide spoon, and the length of the bridging groove as test factors. The ranges of these factors for optimal seed displacement performance were established. Based on the Box–Behnken test principle, a response surface test was designed using Design-Expert software (Design-Expert 13). Experimental results identified the optimal operating parameters as follows: an angular velocity of 4.9 rad/s for the hill seeder, a guide spoon inclination angle of 71.0°, and a bridging groove length of 10.9 mm. Under these conditions, the qualified rate, leakage rate, and multiple rates were 92.2%, 5.3%, and 2.6%, respectively. The results of the field trial showed that the seeding qualified rate was 91.2%, the leakage rate was 4.6%, and the multiple rate was 4.2%. The errors between the field test results and the simulation test results were −1.0%, −0.7%, and 1.6%, respectively, meeting the requirements for oat seeding.
ISSN:2077-0472

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