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光束阻断式小粒蔬菜种子漏充与堵孔同步检测系统研究
引用本文:李兆东,孙誉宁,杨文超,王韦韦,张甜,陈黎卿. 光束阻断式小粒蔬菜种子漏充与堵孔同步检测系统研究[J]. 农业机械学报, 2018, 49(8): 119-126
作者姓名:李兆东  孙誉宁  杨文超  王韦韦  张甜  陈黎卿
作者单位:安徽农业大学工学院;安徽省智能农机装备工程实验室
基金项目:国家重点研发计划项目(2017YFD0301303)、安徽省自然科学基金项目(1808085QE170)和安徽省高校科学研究项目(KJ2018A0135)
摘    要:针对气力式排种器直播小粒蔬菜种子时易产生漏充与堵孔的问题,设计了一种光束阻断式小粒蔬菜种子漏充与堵孔同步检测系统。该检测系统调用ARM嵌入式系统的中断资源,采用旋转编码器实时测定排种盘转速,实时调整时间窗口与理论脉冲频率;在时间窗口内采集对射型激光传感器的输出脉冲,计算实际脉冲频率;通过对理论脉冲频率和实际脉冲频率实施运算,同步测定漏充率与吸孔堵塞率,并在触摸屏上显示。选用雪白玉萝卜、中双11号油菜和上海青3种蔬菜种子为研究对象,以排种盘转速和吸室真空度为试验因素,以漏充率和吸孔堵塞率为试验指标,在气力式精量排种器上进行该系统与高速摄像同步检测试验验证。试验结果表明,该系统可根据排种盘转速变化自行调整时间窗口,对漏充判断相对偏差不大于1.67%,对吸孔堵塞判断相对偏差不大于0.95%。该方法能够有效实现小粒蔬菜种子漏充与堵孔的实时同步检测,为解析排种器漏播成因与排种器改进设计提供依据。

关 键 词:小粒蔬菜种子  气力式排种器  同步检测  光束阻断  吸孔漏充  吸孔堵塞
收稿时间:2018-05-18

Design of Synchronous Detection System of Missing Filling Seeds and Suction Hole Blocking Based on Beam Blocking for Small Vegetable Grains
LI Zhaodong,SUN Yuning,YANG Wenchao,WANG Weiwei,ZHANG Tian and CHEN Liqing. Design of Synchronous Detection System of Missing Filling Seeds and Suction Hole Blocking Based on Beam Blocking for Small Vegetable Grains[J]. Transactions of the Chinese Society for Agricultural Machinery, 2018, 49(8): 119-126
Authors:LI Zhaodong  SUN Yuning  YANG Wenchao  WANG Weiwei  ZHANG Tian  CHEN Liqing
Affiliation:Anhui Agricultural University,Anhui Agricultural University,Anhui Agricultural University,Anhui Agricultural University,Anhui Agricultural University and Anhui Agricultural University
Abstract:In view of missing filling seeds and suction hole blocking in the seeding process of small grain vegetable seeds in the pneumatic seed metering device, an approach for synchronous detecting the missing filling seeds and suction hole blocking of small grain vegetable seeds was proposed. Using the external interrupt and timer interrupt resources of ARM embedded system, the detection system determined the rotation speed of planter plate with a rotary encoder and adjusted the time window and the theoretical pulse frequency in real time. Then, the detection system collected the output pulse of the laser sensor and obtained the actual pulse frequency. By calculating the theoretical pulse frequency and the actual pulse frequency, the rate of missing filling seeds and rate of suction hole blocking were measured synchronously and displayed on the touch screen. With a synchronous detection by high speed camera system, experimental research on pneumatic precision metering device was carried out with the detection system. The seeds of three kinds of vegetables, such as white radish, middle double 11 rape and Shanghai pakchoi, were selected as the research objects. The test factors were the speed of planter plate and vacuum degree of suction chamber, and the rate of missing filling seeds and rate of suction hole blocking were used as test indexes. Experimental results showed that the system can adjust the time window automatically according to the rotation speed of planter plate. The relative deviation of missing filling seeds rate was not more than 1.67%, and the relative deviation of suction hole blocking rate was not more than 0.95%. This detection approach effectively solved missing filling seeds and suction hole blocking synchronous detection of small grain vegetable seeds in real time and provided a basis for analyzing the cause of seed drain and seeding device improvement design.
Keywords:small particle grain vegetable seeds  pneumatic seed metering device  synchronous detection  beam blocking  missing filling seeds  suction hole blocking
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