| 多功能集成式播种开沟器的设计与试验 |
| |
| 引用本文: | 赵淑红,谭贺文,王加一,杨超,杨悦乾.多功能集成式播种开沟器的设计与试验[J].农业工程学报,2018,34(11):58-67. |
| |
| 作者姓名: | 赵淑红 谭贺文 王加一 杨超 杨悦乾 |
| |
| 作者单位: | 东北农业大学工程学院 |
| |
| 基金项目: | 十二五国家科技支撑计划项目(2014BAD11B01);黑龙江省博士后科研启动基金项目(LBH-Q16026);黑龙江省重大科技招标项目(GA14B101-01) |
| |
| 摘 要: | 针对播种作业时土壤扰动大、种床土壤紧实度不足、播种深度均匀性差等问题,设计了一种集开沟、回土、镇压一体化的多功能集成式播种开沟器,其滑刀、挡土板、镇压轮相互配合能够实现开出种沟,种子落至沟底,湿土回流沟内,镇压轮镇压种沟,种子与土壤紧密接触。通过土槽试验,以土壤扰动量、土壤紧实度为试验指标进行三元二次回归正交试验得到开沟器各参数最优组合为滑刀滑切角44.6°、挡土板倾角3.2°、弹簧形变量11.8 mm。在最优参数下与双圆盘播种开沟器、尖角式进行田间对比试验,多功能集成式播种开沟器播深变异系数比双圆盘开沟器播深变异系数低了32.4%,比尖角式开沟器低了25.2%;集成式开沟器作业后的土壤紧实度比双圆盘开沟器紧实度高38.6%,比尖角式开沟器紧实度高62.9%;多功能集成式播种开沟器作业产生的土壤扰动量比双圆盘开沟器降低16.3%,比尖角式开沟器降低36.5%,其回土量比双圆盘开沟器提高29.9%,比尖角式开沟器提高61.5%。试验结果表明该开沟器可以改善种床环境,增强土壤紧实度,提高播种深度均匀性,可为播种开沟器的设计提供参考。
|
| 关 键 词: | 机械化 设计 优化 播种开沟器 集成 回土 镇压 |
| 收稿时间: | 2017/11/15 0:00:00 |
| 修稿时间: | 2018/4/2 0:00:00 |
Design and experiment of multifunctional integrated seeding opener |
| |
| Zhao Shuhong,Tan Hewen,Wang Jiayi,Yang Chao and Yang Yueqian.Design and experiment of multifunctional integrated seeding opener[J].Transactions of the Chinese Society of Agricultural Engineering,2018,34(11):58-67. |
| |
| Authors: | Zhao Shuhong Tan Hewen Wang Jiayi Yang Chao and Yang Yueqian |
| |
| Abstract: | Abstract: Sowing opener is one of the key parts of seeders, and its working performance affects the seeding quality. Domestic and foreign scholars have done a great deal of research on sowing openers in terms of traction resistance, soil disturbance, soil return performance and blocking performance. But there are few reports on the research of sowing opener for the integrative structure of ditching, earthing and suppressing. In this paper, an integrated sowing opener, which can be used to ditch, earth and suppress, was designed. It can solve the problems such as large disturbance of soil, insufficient compactness of seed bed soil, and poor uniformity of sowing depth. The combination of its sliding knife, retaining plate and repressing wheel can realize the seeding ditch, the seed falling to the bottom of the ditch, the wet soil returning to ditch, the suppressing wheel suppressing the seeding ditch, and the seed being in close contact with the soil. In this paper, the cutting edge curve is analyzed according to the slip cutting principle. It sets the cutting edge curve equation as parabola equation to deduce the conditions which can satisfy the needs of the slide cutting. That is, the slip angle is larger than the friction angle. The final result shows the range of the slider slip angle is 25°-65°. Based on the analysis of the principle of soil reflux after the operation of the trench opener, it can be seen that the change of the obliquity angle of the retaining plate affects the soil disturbance and the soil reflux, and the range of the inclination of retaining soil plate is 0-12.4°. According to the agronomic requirements, the range of soil compactness required for seed growth is 30-50 kPa, and the spring deformation amount is calculated to be 9-15 mm. Finally, the influencing factors can be determined. They are the slip angle, the slope of the retaining plate and the deformation of the spring. The slider slip angle, inclination of retaining soil plate and deformation variables of spring were selected as test factors. Soil compaction and soil disturbance were selected as experimental indices. The optimal parameter combination of the integrated seeding opener obtained from the soil bin text of optimizing the structural parameters was as follows: The slider slip angle was 44.6°, the inclination of retaining soil plate was 3.2° and the deformation variable of spring was 11.8 mm. In order to verify the operation performance of the integrated seeding opener better, field contrast tests were carried out with a double-disc opener and a sharp angle opener under the optimal parameters. The variation coefficient of sowing depth, soil compactness, soil disturbance and backing soil quantity were selected as test indices. The experimental results showed that variation coefficient of sowing depth of the integrated opener was 6.03%, which was 32.4% lower than that of the double-disc opener and 25.2% lower than the sharp angle opener. When the integrated opener was operated, the seeds fell into the ditch prior to the soil, which improved the seeds depth uniformity. The soil compactness was 38.6% higher than that of the double-disc opener and 62.9% higher than that of the sharp angle opener after the working of integrated opener. The suppression part of the integrated opener suppressed the ditches, after the soil-covering ditches were suppressed again by suppressing wheels of the seeder, which increased the soil compaction of the seed bed. The amount of soil disturbance generated by the integrated opener was 16.3% lower than that of the double-disc opener and 36.5% lower than that of the sharp angle opener. But its backing soil quantity was 29.9% higher than that of double-disc opener and 61.5% higher than that of sharp angle opener. Therefore, the integrated opener has little disturbance to the soil. In general, the integrated opener can improve the seedbed environment, enhance soil compaction and improve the uniformity of seeding depth. Besides, this type opener provides an integrated reference for the design of sowing openers. |
| |
| Keywords: | mechanization design optimization seeding opener integration back flowing repression |
| 本文献已被 CNKI 等数据库收录! |
| 点击此处可从《农业工程学报》浏览原始摘要信息 |
| 点击此处可从《农业工程学报》下载免费的PDF全文 |
|
