农机化研究2017,Vol.39Issue(3):213-217,5.
气力式西洋参排种装置的设计与试验研究
Design and Experimental Research of Physical Strength Type Seed-metering Device for Panax Quinquefolius
摘要
Abstract
In order to sowing seeds ginseng to need to use to urge a seed of bud, the machine row very easily would grow bud to touch while growing machine dibble and influenced a germination rate, can not satisfy the dibble request of gin-seng seed, according to this, this text designs a kind of physical strength type row to grow device. Elaborate the physical strength type nicety row grows the work principle of machine and made sure its main structure parameter, with Wei sea the text ascend ginseng seed for sow seeds object, adopt two times is handing over to revolve combination experiment, ab-sorb row and grow function and experiment a research towards absorbing to grow equip to carry on, built up to march for-ward speed, inhale bore diameter, negative press 3 main factors and leak the mathematics model of sowing the rate, re-runs rate, analyze each factor to leak the influence regulation of sowing the rate and reruns rate, and carried on parameter excellent turn. Lead the factor of influence on reruns it lord the time is in proper order for:Is negative to press, inhale bore diameter and march forward speed;Leak to sow the main time of leading the influence in proper order BE:Inhale bore diameter and take to press, march forward speed. When march forward the speed as 1. 5 ms|s, inhale the bore di-ameter as 1 mm, while taking to press for the 4 kpas machine's sowing reruns to lead is lower than 1. 0% and leak to sow to lead is lower than 1. 0%, equip comprehensive the function attain superior. Through experiment verification, experi-ment result with excellent turn result basic consistent, satisfy ginseng nicety sow seeds of plant a request.关键词
西洋参/气力式/排钟装置Key words
panax quinquefolius/physical strength/experiment research分类
农业科技引用本文复制引用
刘晓蛟,尚书旗,王东伟,连政国,李金..气力式西洋参排种装置的设计与试验研究[J].农机化研究,2017,39(3):213-217,5.基金项目
山东省现代农业产业技术体系中草药加工与农业机械岗位项目(2015-2016) (2015-2016)
青岛农业大学研究生创新计划项目(QYC201417) (QYC201417)
