Design and experiment of a top bar clamping-type maize precision seed-metering device

doi:10.13733/j.jcam.issn.2095-5553.2025.03.003

Abstract

Abstract:

In response to the problems of reseeding, leakage, and poor adaptability to different types of maize seeds, a top bar clamping-type maize precision seed-metering device is designed. By controlling the opening and closing of the seed picking block through a clamping system, a clamping space is formed with the steel strip for seed picking and cleaning. The effects of torsion spring initial installation angle and torsion force on seed picking and carrying are analyzed, and a mechanical model for the seed picking process is established. To verify the operational performance of the seed-metering device, a three-factor, three-level experiment is conducted using the depth of the seed block, the initial installation angle of the torsion spring, and the speed of seed-metering device as experimental factors, and the qualification index, leakage index, and replay index as experimental indicators. The experimental results are analyzed and optimized to obtain the optimal theoretical parameters. When the depth of the seed block is 8.7mm, the torsion spring angle is 51.4°, and the seed-metering speed is 28.5r/min, the qualification index is 95.0%, the leakage index is 3.1%, and the reseeding index is 1.9%, meeting the agronomic requirements for maize planting. The results provide valuable references for designing mechanical precision seed-metering devices for maize.

Key words: agricultural machinery, seed-metering device, maize, top bar clamping, orthogonal test

摘要： 针对玉米精量排种器出现重播、漏播及对不同形状尺寸玉米排种适应性差等问题，设计一种顶杆夹持式玉米精量排种器，通过夹持系统控制取种块开合，进而与钢带形成一定夹持空间，实现玉米种子的取种、清种等过程。进一步分析扭簧初始安装角和扭簧扭转力对取种及携种的影响效果，并对玉米种子取种过程进行受力分析。为验证排种器作业性能，以取种块深度、扭簧初始安装角、排种器转速为试验因素，以合格指数、漏播指数、重播指数为试验指标进行三因素三水平试验，对试验结果分析及优化得出最佳理论参数：当取种块深度为8.7mm、扭簧初始安装角为51.4°、排种器转速为28.5r/min时，合格指数为95.0%、漏播指数为3.1%、重播指数为1.9%，满足玉米种植的农艺要求，为玉米机械式精量排种器设计提供参考。

关键词: 农业机械, 排种器, 玉米, 顶杆夹持式, 正交试验

CLC Number:

S223.2

Wu Haifeng, Zhang Xuejun, Shi Zenglu, Cheng Jinpeng, Yu Yongliang. Design and experiment of a top bar clamping-type maize precision seed-metering device[J]. Journal of Chinese Agricultural Mechanization, 2025, 46(3): 11-18.

吴海峰, 张学军, 史增录, 程金鹏, 于永良. 顶杆夹持式玉米精量排种器设计与试验[J]. 中国农机化学报, 2025, 46(3): 11-18.

References

［1］　王金武, 唐汉, 关睿, 等. 动定指勺夹持式玉米精量排种器优化设计与试验［J］. 农业机械学报, 2017, 48（12）: 48-57.

Wang Jinwu, Tang Han, Guan Rui, et al. Optimization design and experiment on clamping static and dynamic fingerspoon maize precision seed metering device ［J］. Transactions of the Chinese Society for Agricultural Machinery, 2017, 48（12）:48-57.

［2］　王浩屹, 孙新平, 陈曦, 等. 气吸式小青菜精密排种器设计与试验［J］. 中国农机化学报, 2022, 43（6）: 51-57.

Wang Haoyi, Sun Xinping, Chen Xi, et al. Design and test of air suction precision seed metering device for BrassicaChinese ［J］. Journal of Chinese Agricultural Mechanization, 2022, 43（6）: 51-57.

［3］　纪要, 张文毅, 刘宏俊, 等. 气吸双层滚筒式精量排种器设计与试验［J］. 中国农机化学报, 2021, 42（10）: 22-28.

Ji Yao, Zhang Wenyi, Liu Hongjun, et al. Design and experiment of doublelayer roller precision seed sowing device ［J］. Journal of Chinese Agricultural Mechanization, 2021, 42（10）: 22-28.

［4］　丁力, 杨丽, 张东兴, 等. 气吸式玉米排种器清种机构参数化设计与试验［J］. 农业机械学报, 2019, 50（9）: 47-56.

Ding Li, Yang Li, Zhang Dongxing, et al. Parametric design and test of seed cleaning mechanism of airsuction maize seedmetering device ［J］. Transactions of the Chinese Society for Agricultural Machinery, 2019, 50（9）: 47-56.

［5］　伍皖闽, 陈学庚, 王士国, 等. 组合型孔轮式玉米精量穴播器设计与试验［J］. 农业机械学报, 2022, 53（3）: 60-70.

Wu Wanmin, Chen Xuegeng, Wang Shiguo, et al. Design and experiment of combinedhole maize precision dibbler ［J］. Transactions of the Chinese Society for Agricultural Machinery, 2022, 53（3）: 60-70.

［6］　王金武, 唐汉, 王金峰, 等. 指夹式玉米精量排种器导种投送运移机理分析与试验［J］. 农业机械学报, 2017, 48（1）: 29-37, 46.Wang Jinwu, Tang Han, Wang Jinfeng, et al. Analysis and experiment of guiding and dropping migratory mechanism on pickup finger precision seed metering device for corn ［J］. Transactions of the Chinese Society for Agricultural Machinery, 2017, 48（1）: 29-37, 46.

［7］　王金武, 唐汉, 周文琪, 等. 指夹式精量玉米排种器改进设计与试验［J］. 农业机械学报, 2015, 46（9）: 68-76.Wang Jinwu, Tang Han, Zhou Wenqi, et al. Analysis and experiment of guiding and dropping migratory mechanism on pickup finger precision seed metering device for corn ［J］. Transactions of the Chinese Society for Agricultural Machinery, 2015, 46（9）: 68-76.

［8］　那晓雁. 指夹式玉米精密排种器试验研究［D］. 昆明: 昆明理工大学, 2015.Na Xiaoyan. The experimental study on refers to the clipon corn precision metering device ［D］. Kunming: Kunming University of Science and Technology, 2015.

［9］　李洪刚. 仿生指夹式排种器［D］. 长春: 吉林大学, 2010.Li Honggang. Bionic pinch of metering device ［D］. Changchun: Jilin University, 2010.

［10］　耿端阳, 李玉环, 孟鹏祥, 等. 玉米伸缩指夹式排种器设计与试验［J］. 农业机械学报, 2016,47（5）: 38-45.Geng Duanyang, Li Yuhuan, Meng Pengxiang, et al. Design and experiment of clamping maize precision seedmetering device ［J］. Transactions of the Chinese Society for Agricultural Machinery, 2016, 47（5）: 38-45.

［11］　唐汉. 波纹曲面指夹式玉米精量排种器设计及其机理研究［D］. 哈尔滨:东北农业大学, 2018.Tang Han. Designand mechanism analysis of ripple surface pickup finger maize precision seed metering device ［D］. Harbin: Northeast Agricultural University, 2018.

［12］　李杞超. 取种块式小粒径蔬菜种子精量排种器机理分析与试验研究［D］. 哈尔滨: 东北农业大学, 2020.Li Qichao. Mechanism analysis and experimental study on scoop type precision seed metering device for small size vegetable seeds ［D］. Harbin: Northeast Agricultural University, 2020.

［13］　成大先. 机械设计手册（第5版）［M］. 北京: 化学工业出版社, 2010.

［14］　李洪成, 曾荣, 杨天圆, 等. 玉米种子冲击破碎特性试验研究［J］. 农业工程学报, 2022,38（7）: 29-37.

Li Hongcheng, Zeng Rong, Yang Tianyuan, et al. Experimental study on the impact breakage characteristics of maize kernels ［J］. Transactions of the Chinese Society of Agricultural Engineering, 2022, 38（7）: 29-37.

［15］　顿国强, 毛宁, 刘文辉, 等. 四杆平移式大豆小区育种排种器设计与试验［J］. 农业机械学报, 2022,53（4）: 70-78.

Dun Guoqiang, Mao Ning, Liu Wenhui, et al. Design and experiment of fourbar translational seed metering device for soybean plot breeding ［J］. Transactions of the Chinese Society for Agricultural Machinery, 2022, 53（4）: 70-78.

［16］　张学军, 陈勇, 史增录, 等. 双仓转盘式棉花竖直圆盘排种器设计与试验［J］. 农业工程学报, 2021, 37（19）: 27-36.

Zhang Xuejun, Chen Yong, Shi Zenglu, et al. Design and experiment of doublestorage turntable cotton vertical disc hole seeding and metering device ［J］. Transactions of the Chinese Society of Agricultural Engineering, 2021, 37（19）: 27-36.

［17］　GB/T 6973—2005, 单粒（精密）播种机试验方法［S］.

［18］　NY/T 987—2006, 铺膜穴播机作业质量［S］.

[1]	Yuan Peichao, Ji Yao, Zhang Wenyi. Design and experiment of an ordered rice seedling throwing device based on UAV platform [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(3): 19-24.
[2]	Yang Fan, , Teng Li, Shen Jingxin, , Zhu Jinghong, , Sun Yongjia, , Sun Yitian, . Design and experiment of a pneumatic seed metering device for soybean breeding in small plots [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(3): 33-39.
[3]	Ma Tian, Wang Huiqiang, Zhang Yong, Li Wenxiang, Sun Yulin, Sun Guangjun. Design and test of hanging yam seeding machine [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(3): 40-48.
[4]	Dang Fengkui, Zhao Zhenpeng, Du Zhe, Liu Yihao, Zhang Liyuan, Xie Menghao. Design and experiment of mechanized picking device for oil peony pod [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(2): 8-13.
[5]	Dong Wenxue, Wu Yingsi, Hu Hengtong, Zhao Jun, Liu Fei, Yan Jianguo. Design and test of self‑propelled wide and narrow row corn harvester [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(2): 70-74.
[6]	Liu Minji, Wang Jiannan, Wang Ni, You Zhaoyan, Xie Huanxiong. Design and test of small peanut sheller [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(2): 139-146.
[7]	Peng Yunong, , , Liu Pingzeng, , , Zhang Yan, , . Construction of knowledge mapping of maize production processes based on deep learning [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(2): 245-252.
[8]	He Dengke, He Puming, Wei Junying, Tian Hongyu. Study on the impact of agricultural machinery service outsourcing on farmers' income [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(2): 337-343.
[9]	Dai Yizheng, Cheng Wenbin, Wang Junjun, Zhang Feibin, Xiong Huilan, Chen Huazhai. Orthogonal experiment study on uniformity of rice air-blowing centralized distributor [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(1): 1-7.
[10]	Wang Xiaowei, Wang Huiqiang, Zhang Yong, Li Wenxiang , Sun Yulin, Sun Guangjun. Design and experiment of single ridge onion combine harvester [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(1): 44-51.
[11]	Liu Minji, Wang Jiannan, Wang Ni, You Zhaoyan, Xie Huanxiong. Experiments and key parameters optimization of chain-plate huller for ginkgo nuts [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(1): 105-111.
[12]	Zhang Xinhai, Shi Suchuan, Zhai Zhiping, Lan Yuezheng. Experimental study on the performance of multifunctional forage kneading machine [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(1): 120-124.
[13]	Niu Panting, Zhang Baolin, , , Pan Lijie, Guo Jianpeng. Identification and explainability of maize leaf diseases based on improved GoogLeNet#br# [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(1): 204-212.
[14]	Zou Zhaobin. Generation and operation mechanism of the “unmanned agricultural machinery” service market [J]. Journal of Chinese Agricultural Mechanization, 2025, 46(1): 307-313.
[15]	Wang Lin, Kong Dongsheng, Wang Liangmin, Gu Xiuyan, Yang Long, Wen Yulei. Agronomic factors affecting the mechanized emasculation of maize seed production [J]. Journal of Chinese Agricultural Mechanization, 2024, 45(9): 15-20.