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免耕播种机播种质量红外监测系统设计与试验
引用本文:车宇,伟利国,刘婞韬,李卓立,汪凤珠. 免耕播种机播种质量红外监测系统设计与试验[J]. 农业工程学报, 2017, 33(Z1): 11-16. DOI: 10.11975/j.issn.1002-6819.2017.z1.002
作者姓名:车宇  伟利国  刘婞韬  李卓立  汪凤珠
作者单位:1. 中国农业机械化科学研究院,北京,100083;2. 中国农业机械化科学研究院,北京 100083;土壤植物机器系统技术国家重点实验室,北京 100083;3. 中国农业机械化科学研究院,北京 100083;北京市农业机械试验鉴定推广站,北京 100079
基金项目:国家自然科学基金资助项目(31301241)
摘    要:为了对播种机播种质量进行监测,实现精量播种,该文采用红外检测技术,设计了一种对射式传感器,研制了配套播种质量监测系统,并进行了田间播种作业试验研究。该监测系统由多路传感器、监控终端、播种传动传感器组成,结构合理,安装方便,对播种过程出现的堵塞、漏播、缺种等现象,可发出声光报警信号,及时指示故障的位置。田间试验中监测数据与实际测量对比结果表明:该监测系统能够适应田间工作环境,播种质量监测准确率可达95%以上,能够解决人工难以实时监测播种质量的问题,可避免漏播断条现象发生,提高播种机的工作效率和播种质量。

关 键 词:播种  质量  监测  传感器  红外检测技术  精量播种  田间试验
收稿时间:2016-12-13
修稿时间:2017-01-09

Design and experiment of seeding quality infrared monitoring system for no-tillage seeder
Che Yu,Wei Liguo,Liu Xingtao,Li Zhuoli and Wang Fengzhu. Design and experiment of seeding quality infrared monitoring system for no-tillage seeder[J]. Transactions of the Chinese Society of Agricultural Engineering, 2017, 33(Z1): 11-16. DOI: 10.11975/j.issn.1002-6819.2017.z1.002
Authors:Che Yu  Wei Liguo  Liu Xingtao  Li Zhuoli  Wang Fengzhu
Affiliation:1. Chinese Academy of Agricultural Mechanization Sciences, Beijing 100083, China;,1. Chinese Academy of Agricultural Mechanization Sciences, Beijing 100083, China; 2. State Key Laboratories in Areas of Soil-Plant-Machine System Technology, Beijing 100083, China;,1. Chinese Academy of Agricultural Mechanization Sciences, Beijing 100083, China; 3. Beijing Agricultural Machinery Experiment Appraisal Popularize Station, Beijing 100079, China;,1. Chinese Academy of Agricultural Mechanization Sciences, Beijing 100083, China; and 1. Chinese Academy of Agricultural Mechanization Sciences, Beijing 100083, China;
Abstract:Abstract: Precision seeding machine has been widely used in recent years. There are still some mechanical failures with the machine. And seeding stoppage caused by the field environment will appear during seeding with machine. So, it is essential to monitor the seeding quality. With the research of monitoring technology, visual instrument detection system for precision seeding-metering device is used in laboratory but not suitable in the field. Image processing technology is efficient and accurate but complex and high-cost. The photoelectric inspection technology is low-cost, reliable and quite accurate. First of all, we introduced the theory of the monitoring technology with the infrared detection, which is a common photoelectric inspection technology. We designed a kind of opposite-type photoelectric sensor. Transmitter using the infrared LED (light emitting diode) gave the infrared signal to receiver. The signal had narrow band and directivity when the receiver LED was sensitive to prevent the interference of the visible light and the dirt. The photo diode of receiver was matched with the transmitter, and the power of the signal was measured to detect the passing seeds. When there was a seed between the transmitter and receiver, the infrared signal may be kept out by the seed. Therefor, the power of the signal was getting weak, and the seed was detected. There was a differential circuit after the receiver processed the signal received. The circuit formed a pulse signal which was sent to the micro processer to count the passing seeds. The time of pulse was 0.4 to 4 ms. It had adequate resolution to distinguish adjacent seeds. Then with the theory of the monitoring technology, we developed the seeding quality monitoring system, including the multiplex sensors, the driver gear sensor, and the terminal device with LCD (liquid crystal display) and alarm. We designed a kind of structure to fix the sensor with the tube, and aligned the transmitter with the receiver. The driver gear sensor was used to detect the drive shaft of the seeding apparatus. When it detected the seeder is seeding, the alarm would be available, and it would be triggered if there was no pulse signal of seeding to the processer. It could help to avoid false alarm when the seeder is not seeding. The processer could count and make statistic of the seeding quality, and display the result on the LCD. The monitoring system is reasonable in structure, convenient to install, and will give an alarm signal when seeding is blocked, leaked, lacking seeds or in other stoppage. At the meantime, the system counts and displays the number of seeding and the stoppage caused by different reasons. At last the paper introduced the field test results. Field experiments were carried out to measure the count of seeding, the leakage seeding rate, the lack of seed and the blockage of the seeding tube. It showed that the monitoring system could adapt to the working environment. The field test presented a monitoring success rate of more than 95%. Shooting the trouble of on-line monitoring of seeding quality, the system avoids miss-seeding, performs the efficient seeding and improves the seeding quality.
Keywords:seeding   quality   monitoring   sensors   infrared detection technology   precision seeding   field experiment
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