RU2173511C1 - Seeding unit - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: seeding unit has seeding disk with cells and groove, seeding regulating device arranged above disk, and ejector arranged in disk groove. Groove has width of 12-14 mm and depth of 7-8 mm. Rounded-elongated cells with depth in central part less than seed thickness are made in groove bottom. Seeding regulating device is made in the form of curved plate embedded with its lower end in groove to predetermined depth. Seed ejector is formed as resilient plate adhering to groove bottom. Seeding unit is designed for wide drill. Seed ejector allows different crop seeds to be sown with single seeding unit. EFFECT: simplified construction and increased seeding quality. 2 dwg

Description

 The invention relates to the field of agricultural machinery and, in particular, to sowing devices for wide-row sowing of row crops (corn, soybeans, sunflower, buckwheat, beans, beans).

 Known sowing apparatus of the disk type for sowing, for example, corn. At the end of the disk symmetrically placed cells that capture one grain. The disk rotates in a seed jar, at the bottom of which there are spring-loaded reflectors and ejector seeds. Disc cells with trapped seeds pass under a reflector that removes excess seeds. When a cell with grain passes under the ejector, it pushes the grain into the opener cavity, from where it enters the bottom of the furrow. Each seed fraction has its own disk. Each disk has 24 cells, designed to capture one grain of the appropriate size. Sowing is regulated by the speed of rotation of the disk (by changing asterisks), see A.N. Karpenko, A.A. Zelenev and V.M. Khalansky. Agreecultural machines. Agreecultural equipment. M .: Kolos, 1976, - p. 136.

 The disadvantage of this sowing apparatus is the location of the cells at the end of the disk, which makes it difficult to fill them with seeds and to keep them. The disk has rounded cells, which are designed for sowing round seeds of the same culture with equal sizes. If seeds of non-standard size seeds or beaten seeds and solid impurities get into the cells, the disk cells become jammed, which violates the quality of sowing. A disadvantage of the analogue is that for each seed fraction, you must have your own disk, which increases the cost of manufacturing and their rearrangement.

 The prototype is taken from the beet seed drills, the disc of which is a vertically placed ring with a number of cells. At the end of the disk, 1.5 mm wide grooves are made for the ejectors in the center of the cells. Above the seed disc in the opener body, a device for regulating the seed sowing is installed - a corrugated roller that rotates towards the disc. The roller removes excess seeds from the cells and the seeds moving under the influence of the roller fill the disk cells. The seeding rate is regulated by changing the frequency of rotation of the disk. The sowing apparatus is equipped with two sets of discs for sowing small and large fractions of seeds (see A.N. Karpenko, A.A. Zelenev, V.M. Khalansky. Agricultural machines. M: Kolos, 1976, - pp. 142-143 )

 The disadvantage of the prototype is the location of the cells on the surface of the disc with a narrow groove, intended for sowing only one crop and only one fraction of the seeds, which does not provide the universality of the seeder. In addition, the control device above the disk has a rotating corrugated roller, which rotates the seeds during rotation, which violates the quality of the crop. The disadvantage of the prototype is that the ejector seeds are located in the grooves of the rotating sowing disk, which destroys the seeds and impairs the quality of sowing.

 To eliminate the above disadvantages, the design of a sowing apparatus is proposed, which allows sowing of different crops and with different sizes of seeds without damaging them.

 This is achieved by the fact that on the cylindrical surface of the seed disc there is a circumferential groove 12-14 mm wide and 7-8 mm deep, at the bottom of which there are rounded-oblong cells with a depth in the center less than the thickness of the seeds, and the adjusting device above the disc is made in the form of a curved plate immersed with the lower end into the groove to a predetermined depth, and an elastic plate adjacent to the bottom of the disk groove is installed as an ejector in the back of the disk.

 The presence on the surface of the sowing disk grooves with a width of 12-14 mm and a depth of 7-8 mm allows you to sow the seeds of different crops and with different shapes and sizes, which does not require the manufacture of different seeders for sowing each crop and each fraction of seeds.

 It was experimentally established that increasing the width of the groove of more than 12-14 mm and the depth of more than 7-8 mm does not give a positive result. With the established parameters, high-quality sowing of all crops and seeds of various sizes is ensured. A further increase in these sizes is not possible due to the available surface sizes of standard beet seed discs, on the basis of which the invention is made. An increase in the indicated dimensions would lead to the manufacture of wider discs, which would require the manufacture and a new opener body in which they are mounted, which would increase costs without a corresponding effect.

 Reducing the specified parameters of the width and depth of the groove is also impossible, because this does not provide high-quality sowing of the longest and thickest seeds, which does not allow the universal use of the seeder.

 The implementation of the cells at the bottom of the groove of a rounded-oblong shape to a depth less than the thickness of the seeds provides sowing of seeds of different sizes and shapes without jamming in the cells, which improves the quality of sowing.

 The control device for sowing above the disk in the form of a non-rotating plate eliminates self-sowing of seeds and prevents the passage of excess seeds. The plate has a bend and, when installed, it forms a gap between its lower end and the surface of the bottom of the groove. The gap depends on the angle of inclination of the plate.

 A plate sliding on the bottom surface of the groove, mounted on the back of the disk, prevents self-sowing of seeds and, with its end drowning in the groove, pushes the seeds remaining after sowing from the cells.

 In FIG. 1. shows the metering device, top view.

 In FIG. 2. shows the metering apparatus, side view.

 The sowing disk 1 has a groove 2, on the bottom of which roundish-elongated cells are located 3. In front of the disk there is a regulating sowing device with a plate 4 buried to an adjustable depth in the groove 4. An elastic plate 5 adjacent to the bottom of the disk groove is shown.

 The sowing process is as follows. Seeds from the hopper, falling into the groove of the rotating seed disk, go into the cells and through the gap between the bottom of the groove and the regulating sowing plate are carried out into the furrow formed by the lower part of the coulter. Extra seeds that cannot pass through the gap are retained by the plate in the hopper, as a result of self-sowing of seeds does not occur. The elastic plate sliding behind the disk along the bottom of the groove blocks the seeds from self-seeding and with its end drowning in the groove pushes the seeds remaining in the cells.

 The advantage of the proposed sowing apparatus is its versatility, which allows the sowing of different row crops to carry out the same seeder and with high quality.

 The proposed sowing apparatus can be made in any workshop and used in beet seeders for sowing soybeans, sunflowers, corn, buckwheat, peas, beans, lupins and other row crops, which gives a great economic effect. The high quality of sowing by the proposed sowing apparatus in the conditions of production is established on the sowing of soybean, corn, buckwheat and sunflower.

Claims (1)

 The metering device, including the metering disk with cells and a groove, a regulating device above the disk and an ejector located in the disk groove, characterized in that the disk groove has a width of 12-14 mm and a depth of 7-8 mm, at the bottom of which are rounded-oblong cells with a depth in the center of less than the thickness of the seeds, and the sowing control device is made in the form of a curved plate, dipping the lower end into the groove to a predetermined depth, and an elastic spring adjacent to the bottom of the disk groove is installed as an ejector lastin.

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