Research on vibration picking device for light and simple Camellia oleifera lateral branches

doi:10.13733/j.jcam.issn.2095-5553.2024.10.005

Abstract

Abstract: Aiming at the problems such as the complexity of ground conditions after the Camellia oleifera tree forest, the limited space for the picking machinery operation, and the challenges of medium and large‑scale mechanized picking, a lightweight and simple Camellia oleifera fruit lateral branch clamping vibration picking device based on the working principle of horizontal clamping vibration picking of the Camellia oleifera lateral branches was designed. The mechanics model for Camellia oleifera fruit vibration was established by analyzing the main factors that affected the effectiveness of Camellia oleifera fruit picking, based on the vibration device picking principle and experimental analysis methods. The experiment tested the Camellia oleifera fruit picking rate and bract damage rate by using branch diameter, amplitude, and frequency of the vibration mechanism as test factors. The results showed that the vibration frequency of the vibration mechanism had the most significant impact on the Camellia oleifera fruit picking rate and bract damage rate. Specifically, when the branch diameter of 16 mm, amplitude of 40 mm, the vibration frequency of 16 Hz, corresponding to the Camellia oleifera fruit picking rate was 85.70%, bud damage rate of 4.45%, which was in line with the picking requirements.

Key words: , Camellia oleifera fruit, vibration picking, vibration mechanics model, side branch clamping, light and simple form

摘要： 针对油茶树成林后立地条件复杂,采摘机械作业空间小,中、大型机械化采摘作业难等问题，基于油茶侧枝水平夹持振动采摘工作原理，设计一种轻简式油茶果侧枝夹持振动采摘装置。根据振动装置采摘原理与试验相结合的分析方法，建立油茶果振动力学模型，分析对油茶果采摘效果产生影响的主要因素。以树枝直径、激振机构振幅、频率为试验因素，将油茶果采净率和花苞损伤率作为试验指标，开展油茶果振动采摘试验。结果表明，激振机构振动频率对油茶果采净率、花苞损伤率影响均为最显著。当树枝直径为16 mm、激振机构振幅为40 mm、振动频率为16 Hz，对应的油茶果采净率为85.70%，花苞损伤率为4.45%，采摘效果最佳，基本符合采摘要求。

关键词: 油茶果, 振动采摘, 振动力学模型, 侧枝夹持, 轻简式

CLC Number:

S225.93

Tu Hengming, Rao Honghui, Li Tao, Tong Jinjie, , Wang Bangjin, Liu Muhua. Research on vibration picking device for light and simple Camellia oleifera lateral branches[J]. Journal of Chinese Agricultural Mechanization, 2024, 45(10): 33-38.

涂恒铭, 饶洪辉, 李涛, 童金杰, 王邦进, 刘木华. 轻简式油茶侧枝夹持振动采摘装置研究[J]. 中国农机化学报, 2024, 45(10): 33-38.

References

[ 1 ] 何方, 姚小华. 中国油茶栽培[M]. 北京: 中国林业出版社, 2013.
[ 2 ] 赵家宏. 茶油的保健功能及开发前景[J]. 云南林业, 2011(4): 58.
[ 3 ] 易雪平, 段鹏飞, 何守峰, 等. 木本食用油料植物资源及其籽油的研究现状[J]. 中国野生植物资源, 2017, 36(3): 62-69, 73.
Yi Xueping, Duan Pengfei, He Shoufeng, et al. Research status of woody edible oil plant resources and its seed oil [J]. China Wild Plant Resources, 2017, 36(3): 62-69, 73.
[ 4 ] 虞德森. 油茶种植现状及高产栽培技术探讨[J]. 智慧农业导刊, 2023, 3(14): 64-67.
[ 5 ] 曾永明, 黄小芮, 栾洁, 等. 广西地区油茶籽营养成分研究[J]. 轻工科技, 2023, 39(6): 27-30.
[ 6 ] 梅阿军. 油茶种植现状及高产栽培技术分析[J]. 种子科技, 2022, 40(17): 124-126.
[ 7 ] 吴静, 顾震, 谢传奇, 等. 油茶果壳多糖纯化工艺及其抗氧化活性研究[J]. 食品工业, 2023, 44(11): 72-76.
Wu Jing, Gu Zhen, Xie Chuanqi, et al. Study on the extraction process and antioxidant activity of polysaccharide from Camellia oleifera fruit shell [J]. The Food Industry, 2023, 44(11): 72-76.
[ 8 ] 杨钧钰, 杨丽琼, 候小青, 等. 资源县油茶产业发展现状及对策[J]. 园艺与种苗, 2021, 41(8): 51-53.
[ 9 ] 于巍巍, 杨英杰, 颜晓琦, 等. 油茶果提取物抗肿瘤作用研究进展[J]. 赣南医学院学报, 2020, 40(1): 30-33.
[10] 傅立强. 履带式油茶果机械采摘整机设计与试验[D]. 合肥: 安徽农业大学, 2020.
[11] 李赞松, 曹成茂, 伍德林, 等. 手自一体式山核桃采摘机的设计与试验[J]. 浙江农业学报, 2021, 33(7): 1309-1319.
Li Zansong, Cao Chengmao, Wu Delin, et al. Design and experiment of hand‑operated self‑integrated picking machine for Carya cathayensis [J]. Acta Agriculturae Zhejiangensis, 2019, 33(7): 1309-1319.
[12] 闫锋欣, 李许杰, 杨永霞, 等. 手持冲击梳刷式油茶果采摘装置设计与试验[J]. 农业机械学报, 2023, 54(12): 129-140.
Yan Fengxin, Li Xujie, Yang Yongxia, et al. Design and experiment of hand‑held impacting comb‑type Camellia oleifera fruit harvester [J]. Transactions of the Chinese Society for Agricultural Machinery, 2023, 54(12): 129-140.
[13] 伍德林, 傅立强, 曹成茂, 等. 摇枝式油茶果采摘机设计与试验[J]. 农业机械学报, 2020, 51(11): 176-182, 195.
Wu Delin, Fu Liqiang, Cao Chengmao, et al. Design and experiment of shaking‑branch fruit picking machine for Camellia fruit [J]. Transactions of the Chinese Society for Agricultural Machinery, 2019, 51(11): 176-182, 195.
[14] 郑永军, 江世界, 陈炳太, 等. 丘陵山区果园机械化技术与装备研究进展[J]. 农业机械学报, 2020, 51(11): 1-20.
Zheng Yongjun, Jiang Shijie, Chen Bingtai, et al. Review on technology and equipment of mechanization in hilly orchard [J]. Transactions of the Chinese Society for Agricultural Machinery, 2020, 51(11): 1-20.
[15] 靳文停, 赵金辉, 庄腾飞, 等. 林果机械振动采摘理论与装备研究进展[J]. 农业机械学报, 2023, 54(S1): 144-160.
Jin Wenting, Zhao Jinhui, Zhuang Tengfei, et al. Review on theory and equipment of mechanical vibration picking of forest fruits [J]. Transactions of the Chinese Society for Agricultural Machinery, 2023, 54(S1): 144-160.
[16] 林乐鹏. 面向林果振动采收的电子果实设计与研究[D]. 杭州: 浙江理工大学, 2017.
[17] 刘英, 范开欣, 马晨伟. 枸杞采收机振动采收机理分析[J]. 林业机械与木工设备, 2023, 51(10): 39-43.
Liu Ying, Fan Kaixin, Ma Chenwei. Theoretical analysis of vibration of self‑propelled wolfberry picker [J]. Forestry Machinery and Woodworking Equipment, 2023, 51(10): 39-43.
[18] Mo Xiaoqin, Zhang Zhen, Chen Yongzhong, et al. Effects of different picking time and different geographical provenances on oil content of Camellia oleifera [J]. Asian Agricultural Research, 2018, 10(10): 97-101.

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