外文翻译=牧草小区播种机排种器的设计及试验=4400字外文文献_毕业论文

  • 格式:doc
  • 大小:1016.00 KB
  • 文档页数:21

本科毕业论文(设计) 外文原文

题目: 小型播种机的设计 学 院: 机电工程学院 专 业: 机械设计制造及其自动化 班 级: 学 号: 姓 名: 指导教师:

Development and experiment of seed metering for grass plot Seeder Yang Song, Zhang Shumin, Yi Jintao, Weng Qiang (College of Engineering, China Agricultural University, Beijing 100083,China) Abstract: In order to develop a grass plot seeder, which is suitable for cultivation of

fine grass varieties, a seed metering test platform was developed which has a special designed transmission mechanism and a seed cup with an adjustable ring. Several kinds of seeds can be fed by feeding mechanism in feeding cup when seeding shaft as well as distributor cone rotates one complete revolution. Seed motion and the relationship between seed outlet and seed cup were analyzed in this paper. Result of orthogonal experiment showed that the number of sweeper blades was one of the main influencing factors of the variation coefficient of seeding uniformity. When 12 sweeper blades and 9 grooves cone were used in test, the variation coefficient of the Pacesetter’s seeding uniformity got to the minimum value 16.46%. This research provides a reference for grass plot seeder’s development. Key words: agricultural machinery, mechanisms, stress analysis, plot seeder, grass cultivation doi:10.3969/j.issn.1002-6819.2012.z2.013 Document code: A Article ID: 1002-6819(2012)-Supp.2-0072-06 CLC number: S223.2+6

0.Introduction It is important to conduct comparable tests in experimental plots with breeding, species, nutritional value and production research for grass resource and animal husbandry [1]. Therefore, plot seeder plays a key role for the research and rangeland development. The design requirements of grass plot seeder are similar with conventional plot seeder, which need to feed a uniform amount of seed over the length of aplot and seed metering must be cleaned between contiguous plots because several species and mixtures may be in the same experiment. Numerous plot seeders had been developed for agronomic trials of seeding before it was applied to seeding rangeland. During 1958 to 1960, Egil Øyjord designed and improved a 4-row, a 6-row and a 10-row plot seeders, respectively. In 1970’s, Øyjord plot seeders were exported from Norway to 57 countries [2]. Harold G. Marshall designed a plot drill with a multiple outlet cone which is provided with multiple straight grooves [3]. Most of the plot drills are unsuitable for use in rangeland trials because they cannot seed chaffy grass seed or they cannot be used in rangeland seedbeds. In 1978, Kenneth P Vogel developed an experimental plot drill by mounting a cone seeder and a spinner on a modified rangeland drill and seeded 14 species of grass. Kenneth P Vogel found that some small seeds would cause erratic feeding and incomplete cleaning of the cone, but both problems can be solved by dumping fine vermiculite into the cone before the seed is added [6]. R E Barker developed an equipment which is adaptable for variety trials for small grains, grasses and legumes [3,7]. In China, the research and application of plot operation machine have a great development in last several decades, but they are still backward in comparison with that of advanced countries in the world, and the plot seeder for grass breeding has not been reported [8-10]. The essential element of a plot seeder is seed metering, which is composed of the cone which rotates one complete revolution when the planter moves over a plot, and seed cup centered above the cone apex. Seeds are poured into the cup by feeding mechanism and then dumped into the cone by rising the cup. Traditionally, the seed cup can be raised by hand or by using an electromagnetic lifting device[10-12]. And the problem of erratic feeding and incomplete cleaning can be solved by adding granular mixture but the mixture may exceed the capacity of the cone. For solving the problems mentioned above, a grass plot seeder was designed and a seed metering test-bed was fabricated based on study of domestic and foreign research.

1.Structure and principle The seed metering designed in this paper includes seed feeding mechanism, transmission mechanism and seeding mechanism (Fig.1). The seeds in seeding base plate will be pushed by sweeper blades(not shown in Fig.1) and pour into seed outlet tube when seeding shaft as well as distributor cone rotates one complete revolution. There are 18 feeding cups in feeding mechanism. All the feeding cups are connected with a feeding shaft, which is driven by a gear which meshes once with middle shaft when it rotates one complete revolution. And the feeding cups in the feeding mechanism tray will move forward 20° along circle and then be halted by a location device. Seeds in the feeding cup above the seed cup will dump on the cone. (Chinese patent number: 201120192091.5). The clearance between distributor cone and seed cup which has something to do with seed size can be adjusted by adjustable ring beforehand.