气力式蔬菜精密播种机设计【含29张CAD图纸和文档资料终稿】
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含29张CAD图纸和文档资料终稿
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Proceedings of the 7th Annual British Columbia Mine Reclamation Symposium in Victoria, BC, 1983. The Technical and Research Committee on Reclamation AGRICULTURAL SEEDING EQUIPMENT Paper presented by Erich Schulz, C.E.T. Agricultural Engineering Technologist Ministry of Agriculture and Food Proceedings of the 7th Annual British Columbia Mine Reclamation Symposium in Victoria, BC, 1983. The Technical and Research Committee on Reclamation AGRICULTURAL SEEDING EQUIPMENT INTRODUCTION The basic textbook definition for the function of seeding equipment is to uniformly distribute seeds into moist soil at a prescribed rate and depth, and cover these seeds with a compacted soil layer, without damage to the seed. A large number of seeding units have been designed and built to accomplish this function, and it is our intention to review some of the various units available for agricultural practices. Before proceeding with seeding, however, one must prepare a seedbed in a soil media suitable for plant support. Over the years, you have all heard a range of topics on soil properties, characteristics, and a good seedbed for satisfactory germination? Simply put, they are: good fertility, sufficient warmth, sufficient air, adequate moisture and an adequate layer of soil between the seed and the surface which will allow penetration by the sprout of the particular seed. Seeds vary widely in their soil-moisture requirements for germination and their sprout energy. Grass seeds must be planted close to the surface as they have low sprout energy, but they also require sufficient moisture. If planted deep enough to stay moist, they may not be able to penetrate the surface. A light mulch is valuable in securing a stand of grass because it retains moisture but does not offer resistance to the sprouts. Good soil tilth, the degree of aggregation of the soil, is the most important rootbed factor. A high degree of aggregation in a soil provides: freedom of root development and penetration, maximum water storage capacity to supply plant needs, and resistance to breakdown of surface particles under rainfall, and prevention of sealing over, allowing maximum water intake and therefore reducing erosion due to runoff. CHARACTERISTICS OF SEEDERS Most seeders have some method of accurate seed metering, which comes in a variety of forms. They must have furrow openers which will place the seed at a desired depth, and some type of device which will cover the seed and compact it into the soil to allow maximum soil-seed contact. Many different methods are used to meter seeds for planting, and their use depends on the characteristics of the seed and the spacing desired. Metering mechanisms in common use are: a) agitator with adjustable hole b) fluted or external force feed 65 Proceedings of the 7th Annual British Columbia Mine Reclamation Symposium in Victoria, BC, 1983. The Technical and Research Committee on Reclamation c) double run or internal force feed d) cup feed e) vertical plate feed f) inclined plate g) horizontal seed plate. The mechanisms most commonly used for grass seeding are the fluted and double run force feed systems, primarily because they can accommodate a variety of seed sizes and can meter the seeds at different rates with relatively easy adjustments. Furrow openers must place the seed at the desired depth with minimum dispersion. Many types are used, the most common being: a) hoe or shovel openers b) single disc openers c) double disc openers d) shoe openers e) wheel openers. The single disc or double disc openers are most frequently used in grass seeding equipment. They can be operated at relatively high speeds and depth can be accurately controlled by gauge wheels. For proper germination, seed must be in contact with moist soil and covered with a layer of soil which the seed sprout can penetrate. Some of the devices used to provide the proper seed environment are: a) drag chains b) covering blades c) covering shovels d) disc covers e) press wheels. The press wheels have been found to be most effective as they gauge opener depths as well as firm the soil around the seed, so as to optimize soil-seed contact and moisture retention. SEEDING EQUIPMENT Forage stands can be established by using a variety of seeding techniques. Some are successful only during short periods when specific soil and climatic conditions exist, while others are reliable 66 Proceedings of the 7th Annual British Columbia Mine Reclamation Symposium in Victoria, BC, 1983. The Technical and Research Committee on Reclamation over a wide range of conditions. Hydroseeding and helicopter seeding have been discussed in earlier papers. These methods are very expensive for most agricultural enterprises. Seeding by airplanes however, can have a place in agriculture. This method can be used effectively in rather rough terrain conditions or when fields are too muddy for vehicles. It should be anticipated that not all seed spread will germinate, as no proper seed placement or compaction occurs and therefore aerial seeding requires application of more seeds per hectare. Wind can seriously effect the even distribution of the seed. In range conditions, the seed is usually broadcast on snow. As the snow melts, the seed is carried down to the ground, and with some frost action, will be carried into a suitable environment for germination. There is a danger of seeds being carried away with the runoff and the practice is therefore prone to spotty forage establishment. Spinner spreaders have a similar problem of seed placement and soil compaction, but they can be effective in well-prepared seedbeds. The seeds will drop into openings of a rough seedbed, and wind and raindrop splash action will cover these seeds to stimulate germination. Again, a higher rate of seeding per hectare is required. As a method of seeding, broadcasting is not as efficient as drilling because of the variable depth of coverage, some seeds being too deep and others too shallow. Small farm operations have used and are still using the Brill ion type seeder. An excellent seedbed must be prepared. The first set of rollers breaks up large clots and creates small ridges and depressions. The seed is then dropped and a second set of packer rings presses the seed into the ground. The ridge formation from the first packer rings is displaced by the second set of rings. This will ensure that some soil covers the seed and good seed-soil contact is achieved. A more advanced step in seeding equipment is one in which the equipment does some of the soil tillage, drops the seed in a well-tilled soil, covers the seed with a second set of discs and ultimately packs the soil with press wheels. This ensures that the seed is positively covered and well compacted into the soil. The field is left in a smooth condition for subsequent harvesting operation. The small ridges created can catch any moisture that becomes available due to rain. The Australian hoe drill, after primary tillage and seed placement, firms the seed into the soil and then loosens the surface soil layer 67 Proceedings of the 7th Annual British Columbia Mine Reclamation Symposium in Victoria, BC, 1983. The Technical and Research Committee on Reclamation with hoes to allow the young seed sprouts to penetrate the soil surface more easily. This leaves the soil surface very loose and can become a soil erosion problem under windy conditions. Attempts have been made over the years to reduce the pre-seeding tillage required; not only to reduce the overall cost of seeding, but also to retain some of the trash cover to improve soil surface tilth and help to prevent soil erosion. Disc tiller seeders were developed that mounted conventional seed hoppers on a one-way disc tiller with the seed-delivery tubes dropping the seed between the discs at a location where it will be covered at the desired depth. Seed depth placement, however, is not very accurate and no provision was made for compaction. A similar method was developed by John Deere and Company using two sets of discs, one to rough-till the soil, the other to cover the seed. Again, accurate seed placement and compaction were not dealt with. This equipment would be applicable in grain seeding where the seeds have considerable energy to germinate and grow under more adverse depth-of-placement conditions; however, for grasses, results are questionable. Minimum tillage was pursued as time went on and the introduction of the Versatile-Noble hoe drill achieved this. The coulters are widely spaced on three separate rows to prevent trash build-up. Approximately 20 kg of downward force is required to penetrate the soil. The hooked toe on the coulters assists in keeping the shanks in the ground. Seed is metered out and firmed into the ground by press wheels which are in-line with the coulters. The Amazon Zero-Till, an experimental model from Germany, has angled cutting coulters that disturb the soil. Seed and fertilizer are dropped on the back side of the coulters. Two ranks of coulters and packer wheels firm the seed into the soil. There is considerable soil disturbance and the term zero-till seeding is rather misleading; however, it is a once-over operation and the residue is left at the surface. Triple disc zero-till requires up to 100 kg downpressure to penetrate the soil and establish a seedbed. The advantage of this unit is that it can cut through field residue, place fertilizer below the seed level, and distribute the seed at a desired depth in the soil that will enhance seed germination. 68 Proceedings of the 7th Annual British Columbia Mine Reclamation Symposium in Victoria, BC, 1983. The Technical and Research Committee on Reclamation The introduction of John Deeres Power-Till seeder brought minimum tillage or zero tillage to its highest point. A set of spinning discs cut a very narrow slot in the sod or soil. This creates an excellent seedbed. The seed is dropped into this tilled soil and pressed into the soil. Since only a limited amount of the vegetation is disturbed, it is necessary to apply a herbicide to spray the unwanted vegetation. When only inter-seeding for pasture renovation, no chemical sprays are required. It was found, however, that the spinning discs would wear very quickly and had to be hard-surfaced frequently. Secondly, the discs would almost self-destruct in rocky soils. Air seeders are a relatively new introduction to seeding equipment. Forced air delivers the seed from a seed box and distributes it to the seed delivery tubes. The seedbed is prepared with the equipment, seed is placed into the soil with special coulters and by running a short diamond harrow behind the unit, the soil is partially compacted and the field is left in a very smooth condition. A liquid fertilizer tank can be pulled behind the whole unit. The fertilizer is injected before seed placement and deeper than the seed. In this way, a once-over operation in stubble fields can be achieved; that is, it achieves soil cultivation or seedbed preparation, fertilizer application and seed piacement. B.C. RANGELAND SEEDING EQUIPMENT In 1975, the B.C. Ministry of Agriculture and Food embarked on a program to develop seeding equipment that could work in some of the rough, rocky range conditions of B.C. To effectively renovate some of the depleted range, the equipment would have to have the capability of: -providing good tillage of the top 8-to-15 centimetres of soil,-eliminating undesirable vegetative competition such as -placing seed accurately at no more than 1 to 2 centimetres below the soil surface and maximum contact and moisture retention. A great deal of equipment has been developed in many parts of the world. In most cases, the conditions in which that equipment had to work were not as difficult as those existing on B.C.s rangeland. 69 -providing adequate packing to firm the seed into the soil for sagebrush, Proceedings of the 7th Annual British Columbia Mine Reclamation Symposium in Victoria, BC, 1983. The Technical and Research Committee on Reclamation One of the more promising pieces of equipment was the U.S.D.A. Rangeland drill. The unit would do a fair job on relatively easy going ground, however, the heavy sagebrush could not be effectively killed and severe plugging occurred. It was almost impossible to ask one machine to provide the four main feeding requirements, namely, soil tillage, elimination of vegetation competition, accurate seed placement and packing. The range seeding equipment developed by the B.C. Ministry of Agriculture and Food consists of two units: a flexible, heavy-duty double offset disc to provide vegetation control and soil tillage, and a free-floating seeder-packer to compact the soil and place the seed accurately. The two units are pulled in tandem for a once-over operation. The unique features of the 10 tonne disc are in the design of the sub-gangs that are individually controlled and loaded by a hydraulically-operated cylinder. This individually variable loading of the sub-gangs gives good flexibility on uneven terrain and obstacles such as boulders and outcroppings, as well as improved durability by having each sub-gang absorb the impact loads, rather than trying to lift the entire machine. The 11-tonne seeder-packer consists of two sets of four specially-designed cast rollers which can travel up and down to follow the contour and traverse obstacles. Seed is broadcast between the rollers from a standard seed box. The second set of rollers is positioned in such a way that shallow ridges formed by the front rollers are split and the soil is formed around the seed for maximum soil-seed contact. In most cases, one pass is adequate, however, on heavy sods, double discing is sometimes necessary. One thing that cannot be over-emphasized is the fact that the equipment must be built strongly. Constant pounding over rocky soils and undulating terrain is probably the most severe operating condition any machine can be subjected to. Germination is uniform and because the soil surface is left in a ridged fashion, any moisture, either through snow or rainfall, can be effectively used by the new seedlings. The success in establishing a uniform stand of grass is directly related to good soil tillage, seed placement and packing. Over the last five years over 10,000 hectares of range have been seeded. Yield data were taken on many of these sites and a four to five-fold increase over native production was recorded. 70 农业播种设备论文由埃里希舒尔茨,C.E.T.农业工程技术人员农业食品部发表农业播种设备介绍播种设备的功能的基本定义是:以规定的速度和深度将种子均匀的分布在潮湿的土壤中,然后压实土壤层以覆盖这些种子,并且不能损坏种子。大量的播种单元被设计和制造来完成这一功能,我们的目的是总结一些可供选用的农业实践行为。进行播种前,我们必须准备合适的土壤介质以供支持植物。这些年来,我们都听闻了一系列的关于土壤性质,特性和怎样获取满意的苗床发芽的研究报告。简单的说,它们是:好的肥力,合适的温度,足够的空气,充足的水分与种子和土壤表面之间的一个适当的允许由特殊种子萌发的渗透土壤层。种子发芽所需要的能量在不同的土壤中存在巨大的不同。草类种子因为发芽所需能力很小,所以必须接近土层表面,但是它们也需要足够的水分。如果种植的很深以便保障水分,它们可能不能发芽到土层表面。充足的阳光是有利于幼芽的直立生长的,因为它能保证水分并且不对幼芽的生长产生阻碍。具有良好可耕性的土壤和土壤的聚集程度是最重要的基础因素。土壤的高聚集程度提供了:根部的自由发育和渗透,最大化的为植物需要供应的水分,阻止因降雨而破坏土,防御性的密封功能和允许最大的进水量并减少由于径流量产生的侵蚀。播种机的特点从各种不同的统计表格中可以看出,大多数播种器有着精确播种的计量方法。它们必须使用开沟器将种子放在所需的深度,有一些播种机会将种子用土壤盖住并夯实以保证土壤和种子有最大的接触面积。许多不同的方法被用于计量种子的种植,它们的使用取决于种子的特性和所需的间距。常用的机械计量机构是:a) 可调孔式搅拌器b) 送料槽c) 双向送料d) 杯型送料e) 垂直板送料f) 斜板送料g) 水平种子板最常用的播种机制是双向送料反馈系统,主要是因为它们可以适应不同大小的种子和相对容易调整的速度。开沟器必须将种子放在所需的深度并保证最小程度的分散。许多的类型被运用到播种机当中,最普遍的是:a) 锄头和铲子型机构b) 单圆盘型机构c) 双圆盘型机构d) 模座型机构e) 轮型机构单盘或双圆盘开沟器在播种设备中是最常用的旋耕机构,它们可以在较高的速度和较深的深度条件下通过调整轮精确的控制。为了正常萌芽,种子必须覆盖在一层薄薄的潮湿的土壤下,以便种子发芽的时候可以穿透土层,一些用来为种子提供适当的环境的设备:a) 开槽链b) 覆盖刀片c) 覆盖铲子d) 密封盘e) 压土轮压土轮已经被证明是最有效的计量开槽深度和巩固种子周围土壤的方法,这种方法可以优化土壤与种子的接触面积并且保持湿度。育苗器械饲草架可以通过使用各种播种技术建
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