RU2108703C1 - Seeding unit - Google Patents

Abstract

FIELD: agricultural engineering, in particular, single-seed drilling equipment. SUBSTANCE: seeding unit has two rows of cells positioned in its central part and slot arranged between and close to two rows of cells. Cover plate is inserted into slot so that it is raised above seeding member by value equal to the thickness of one layer of seeds. EFFECT: increased efficiency by improved distribution of seeds in furrows at increased rotational speed of seeding member due to reliable grain-by-grain filling of cells. 2 dwg, 1 tbl

Description

 The invention relates to agricultural machinery, in particular to single-grain sowing machines, and can be used for sowing row crops.

 Known metering apparatus having a housing, a metering element installed in it with cells for seeds and flat arcuate pads included in the annular grooves on the metering element [1]. In this apparatus, annular grooves pass through the centers of the cells, the pads enter the grooves, closing the cells in the filling zone, and thus can turn a three-row sowing element into a two- or single-row one in order to reduce the number of replaceable sowing elements when adjusting the seed rate.

 The disadvantage of this apparatus is that the fill factor of the cells decreases rather quickly with increasing rotation speed of the seeding element, since the coincidence of seeds with cells is a random event, and its probability is less than unity.

 Closest to the proposed is a metering apparatus having a housing and a metering element installed in it with cells for seeds [2]. In this apparatus, the inner wall of the casing and the point of the seed inlet, farthest from the longitudinal axis of the sowing element, are located in the same plane. The location of the trajectory of the cells close to the wall of the housing increases the likelihood of filling the cells, as they move exactly under the organized row of seeds in the corner between the wall and the sowing element, which leads to an increase in the uniformity of sowing seeds.

 However, with an increase in the intensity of seed selection by cells, there may be gaps in their filling due to arching in the seed mass and lack of time for lowering the next seed before contact with the sowing element. An increase in the intensity of seed selection occurs with increased seeding rates or with an increase in the speed of movement of the sowing element. It is known [3], [4] that the best distribution of seeds in the furrow without bouncing and rolling when falling is observed when the rotation speed of the sowing element and the speed of the seeder are equalized, when the horizontal component of the initial speed of seed fall is zero. Taking into account that the speed of the seeders is 1.5-2.0 m / s, and the peripheral speed of the sowing element is limited to 0.20-0.30 m / s due to gaps in the filling of the cells, the relevance of the survey becomes obvious the possibility of increasing the occupancy of the cells at higher speeds of rotation of the sowing element.

 Vaulting in the mass of seeds [3] delays the recovery time of the organized row at the level of the entrances to the cells, which requires an increase in the distance between the cells along the arc of the sowing element, that is, a decrease in the intensity of seed selection, and compliance with an increased seeding rate requires the opposite.

 The invention solves the problem of improving the quality of the distribution of seeds during their intensive selection by the metering device by improving the piece filling of cells.

 This is achieved by the fact that in the sowing apparatus having a housing, a sowing element with cells for seeds and a flat arcuate pad, an annular groove is made between two closely spaced rows of cells, into which a pad is inserted that does not close the entrances to the cells, but is close to them.

 On both sides of the patch, organized rows of seeds are formed exactly along the trajectory of the cells, which increases the likelihood of the cells meeting the seeds and improves their occupancy. From one row of cells, two closely spaced rows are obtained, each of which can be cut in half and has its own organized row of seeds. In each of them, the intensity of seed selection is reduced due to an increase in the distance between the cells along the arc of the sowing element, which increases the time reserve for the formation of an organized row of seeds and makes it possible to increase the rotation speed of the sowing element without reducing the cell fill factor. A small thickness of the patch and a possibly closer arrangement of the rows of cells are necessary so that the seeds fall from both rows into the wedge-shaped groove closer to the top of its corner, which reduces the rebound and rolling of the seeds until they calm down in the soil.

 Thus, the proposed sowing apparatus combines the advantages of a single-row sowing element in terms of accuracy of seed placement in the furrow and multi-row - in terms of the intensity of piece selection of seeds, providing the possibility of increasing the peripheral speed of the sowing element without reducing the fillability of the cells and improving the quality of seed distribution.

 In FIG. 1 shows a metering apparatus, section, front view; in FIG. 2 is a section AA in FIG. one.

 The sowing apparatus consists of a housing 1, a sowing element 2 with two rows of cells 3 and an annular groove 4 between them, a flat arcuate lining 5 located in the groove 4. The rows of cells 3 are closely adjacent to the groove 4, and the lining 5 rises above the sowing element 2 by the height of one layer of seeds.

 When the apparatus is operating, the metering element 2 rotates, and the pad 5 remains stationary. On both sides of it, organized rows of 6 calibrated seeds are formed, which, under the influence of lateral pressure in the bulk material, approach the patch and are located exactly above the trajectories of the cells. The likelihood of a favorable meeting of each cell with the seed increases. As the seeds pass into the cells, their place is occupied by new organized rows of seeds, the formation of which takes more time, since the two-row sowing element has more distance between the cells than the single-row, at the given values of the sowing rate and rotation speed of the sowing element. Due to this reserve of time, piecewise dosing of seeds can be carried out at higher speeds of the sowing apparatus.

 Laboratory tests of the sowing apparatus, carried out by the author at the Department of Agricultural Machines of the Voronezh State Agrarian University, show that when sowing calibrated unrefined seeds of sugar beet fractions of 4.5-5.5 mm, the sowing apparatus, similar to [1], provides a cell fill factor of 97% at peripheral speed sowing disk 0.20-0.21 m / s. For the sowing apparatus [2], this indicator is provided at a peripheral speed of the sowing disk of 0.24-0.26 m / s, and for the proposed apparatus - 0.29-0.32 m / s.

 Industrial application of the proposed sowing apparatus is advisable in beet seeders type SST-12.

 The results of a laboratory study of the fill factor of the cells of cellular-disk sowing machines of beet seeders of the type ССТ-12 are presented in the table.

Sources of information
1. USSR author's certificate N 292611, cl. A 01 C 7/04, 1971.

 2. USSR patent N 1790329, cl. A 01 C 7/04, 1993.

 3. Buzenkov G.M., MA S.A. Machines for sowing crops. M .: Engineering, 1976, p. 261-262, 110-113.

 4. THALMANN G. Systematik und Gestaltung der Arbeitsphasen einer Einzelkornasamaschine. Agrartechnik, 1983, 33 N 1, 8-10.

Claims (1)

 The sowing apparatus, including a sowing element installed in the housing with seed cells, characterized in that between the two rows of cells located in the central part of the sowing element, an annular groove is made adjacent to them, in which there is a pad that rises above the seed element by a thickness of one layer seed.

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