Design and Experiment of Quantitative Seed Supply Device with Fluted Roller Used for Double vibrating Precision Seed Meter

In order to realize precision seeding for super rice and other crops in the seedling tray, the ration of quantitative seed supply is one of the important indicators to measure the performance of precision seed meter. Due to the uneven feeding of existing fluted roller seed meter, it needs to discuss quantitative seed supply technology deeply from the theory to test. A quantitative seed supply device with electromagnetic vibration scoop shape fluted roller was designed, including a detail structure design for scoop shape fluted roller, vibrating board and rubber sheet, etc. The theoretical model for quantitative seed supply was built with structure characteristics of the device, and the actual seed supply quantity was tested under the condition that electromagnetic vibration frequency was always constant. It was obtained that the influence rules of actual seed supply quantity were electromagnetic vibrator amplitude and fluted roller rotational speed. The test results showed that the actual seed supply quantity was close to theoretical model, the relative error of quantitative seed supply was less than 4%, when the seed rotational speed of metering wheel was 0.8~6.6r/min and above 6.6r/min, the electromagnetic vibrator amplitude was selected as 10μm and 15μm, respectively. The research results can provide a reference for digital design of precision seed meter.

Keywords: precision seed meter, double-vibrating, quantitative seed supply, design, experiment

ZHOU Liming, WANG Shumao, ZHANG Xiaochao, et al. Seed monitoring system for com planter based on capacitance signal[J]. Transactions of the CSAE, 2012, 28(13): 16 -21. (in Chinese)

ZHANG Xizhi, LI Min, MENG Chen. Research and development of precision seeding intelligent monitor[J]. Transactions of the CSAE, 2004, 20(2) s 136 - 139. (in Chinese)

ZHANG Xiaodong, WU Jianmin, SUN Wei, et al. Design of automatic compensation system for potato planter[J]. Journal of Gansu Agricultural University, 2013, 48( 1) : 145 - 149. (in Chinese)

LIU Quanwei, WU Jianmin, WANG Di, et al. Design and test of a microcomputer-controlled loss sowing compensation system for 2CM -2 potato seeder[J]. Agricultural Research in the Arid Areas, 2013, 31(3) ; 260 -266. (in Chinese)

SUN Wei, W ANG Guanping,WU Jianmin. Design and experiment on loss sowing testing and compensation system of spoon-chain potato metering device [ J]. Transactions of the CSAE, 2016, 32 (11):8 — 15. (in Chinese)

MCPHEE J E, BEATTIE В M, CORKREY R, et al. Spacing uniformity-yield effects and in-field measurement [ J ]. American Potato Journal, 1996, 73(4) : 167 - 171.

FENG Fan. Research of 2BDP - 1000 rice seedlings precise seeder [ J]. Agricultural Engineering, 2015,5 (2) ; 76 - 79. ( in Chinese)

LIZhiwei, SHAO Yaojian. Study and test of electromagnetic vibrating type rice seeder for hill seedling nursery box [ J ]. Transactions of the Chinese Society for Agricultural Machinery, 2000, 31(5) : 32 -34. (in Chinese)

ZHOU Haibo, MA Xu, YU Dalue, et al. Rice seeding for nursing seedlings pipeline of2CYL~450 type design[J]. Agricultural Mechanization Research, 2008 ,30( 11) : 95 -97. (in Chinese)

YU Dalue, MA Xu, ZHOU Haibo, et al. Experimental research of vibration flow type rice seedlings seeder[J]. Agricultural Mechanization Research, 2010, 32(2) ; 137 - 139. (in Chinese)

ZHENG Dingke, LI Zhiwei, OU Yinggang. Design and test for electromagnetic vibration combined blanket seedling planting device [ J]. Journal of South China Agricultural University, 2004, 25 ( 1 ) : 103 - 106. (in Chinese)

XING Не, ZANG Ying, WANG Zaiman, et al. Design and test for paddy pneumatic type metering device room layering [J ]. Transactions of the CSAE, 2015, 31(4) : 42 -48. (in Chinese)

DENG Weijian, LI Zhiwei, QIU Xiuli, et al. Research of box rice liquidity and arch based on cross diversion[ J]. Agricultural Mechanization Research, 2013,35( 12) : 145 - 149. (in Chinese)