农业工程学报2025,Vol.41Issue(14):51-60,10.DOI:10.11975/j.issn.1002-6819.202412096
交错螺旋槽轮式小麦精量集排器设计与试验
Design and experiment of the staggered helical groove wheel precision centralized wheat metering device
摘要
Abstract
Pneumatic centralized seed metering has been developing rapidly in China,due to its high precision,efficiency,and low seed damage.However,the traditional centralized wheat metering devices are often equipped with a straight groove wheel.Once the amount of the seed discharged is high,the groove wheel can rotate to the groove and low at the ridge,thus resulting in the pulsation during seeding.The discharge stability and uneven seed distribution can be caused by the pulsation of the straight groove wheel.This study aims to propose a precision centralized wheat metering device with a staggered helical groove wheel.According to the seed metering device with the outer groove wheel,the seed metering was optimized to eliminate the seed-feeding layer for the low inter-seed stress and seed damage.The helical structure was provided to enhance the uniform seeding.Two groove wheels with helical grooves were arranged in a staggered configuration.Among them,the two wheels were allowed to discharge the seeds in a complementary manner.The seed flows of the two groove wheels complemented each other,particularly for the phase complementarity of the seed supply cycle with the dual helical groove wheel.The pulsation was further reduced for the uniform seed discharge and stable seed rate.According to the seed stress between teeth and seed population motion,the helical angle and stagger angle were the key influencing parameters on the discharge stability and seeding uniformity.The working parameters of the centralized seed metering device were determined to calculate the seed-holding space of the helical groove wheels.A two-factor and multi-level simulation was conducted using the Discrete Element method(DEM),with the helical angle and stagger angle as the experimental factors,while the discharge stability and seed distribution uniformity as the evaluation indices.The optimal combination of the parameters was identified after optimization.The results showed that both the helical angle and stagger angle shared significant effects on the discharge stability and seed distribution uniformity(P<0.05).The coefficients of variation for both discharge stability and uniformity first decreased and then increased with the increasing helical angle,while they gradually decreased with the increasing stagger angle.The best performance was achieved when the helical and stagger angles were 45°and 20°,respectively,with the coefficients of variation of 2.06%and 7.29%,respectively.Bench test results showed that the performance of the centralized seed metering device was only slightly affected by the operating speed.The coefficients of variation for the discharge stability,the seed distribution uniformity,and the seed damage rate were below 2.23%,7.52%and 0.056%,respectively,when operating at 8-10 km/h.Compared with the traditional outer groove wheel,the average coefficients of variation for the discharge stability and seed distribution uniformity,and the seed damage rate were reduced by 10.14,4.5,and 0.093 percentage points,respectively.Furthermore,the inter-groove seed stress of the helical groove wheel was significantly lower,where the peak stress was reduced by about 50 percent.The seed stress was reduced across different groove wheels and seeding stages,leading to the low seed damage of the helical groove wheels.There was some impact of the staggered helical groove wheels on the performance of the centralized wheat metering devices.The finding can also provide the theoretical support for the operational stability and uniformity in the groove wheel-type conveying devices during agricultural production.关键词
农业机械/小麦集排器/交错螺旋槽轮/排量稳定性/排种均匀性Key words
agricultural machinery/centralized wheat metering device/staggered helical groove wheel/consistency of seeding quantity/seed distribution uniformity分类
农业科技引用本文复制引用
王宪良,雷云帆,魏忠彩,程修沛,姬江涛,李慧,耿端阳,张祥彩..交错螺旋槽轮式小麦精量集排器设计与试验[J].农业工程学报,2025,41(14):51-60,10.基金项目
国家自然科学基金青年科学基金项目(32101631) (32101631)
山东省农机研发制造推广应用一体化试点项目(32301705) (32301705)
