RU210704U1 - COMBINED SEEDER - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to seeders for subsoil-scattered sowing of grain crops. The combined sowing unit includes a frame with a hitch, a hopper with sowing units, support wheels and coulters. The coulters contain a hollow stand-seed tube, a spherical disk and a divider. The concave side of the spherical disk faces the field surface. The divider is installed under the hollow stand-seed tube in the inner cavity of the spherical disk. A roller is installed behind the coulters, containing an axle and conical discs mounted on the axle with the possibility of free rotation. The conical discs are mounted alternately on the axle. The smaller bases of the conical discs are directed opposite each other, and the larger bases of the conical discs are directed opposite each other in such a way that the periphery of the roller forms a wedge-shaped surface, the sharp edges of which are directed in the direction of rotation of the leveling type roller. On the lateral surface of each conical disk, semicircular recesses are made in such a way that the formed sharp peaks with equal angular pitch are directed from the larger base of the conical disk towards its smaller base and are perpendicular to the direction of rotation of the conical disk. Such a design of the combined sowing unit will improve the quality of sowing grain crops.

Description

The utility model relates to agricultural engineering, in particular, to seeders for subsoil-scattered sowing of grain crops.

Known combined sowing unit [seeder. Patent RU No. 2293460. - Published. February 20, 2007, Bull. No. 5], including a frame with a towing device, a hopper with sowing units, support wheels, coulters. Coulters are fixed on hollow racks. Crushing and rolling rollers are installed behind the seed drill.

However, the well-known sowing unit has a drawback, which includes the low quality of sowing grain crops due to the uneven distribution of seeds under the coulter, as well as the poor quality of the destruction of soil clods and post-sowing rolling of the soil surface.

EFFECT: improving the quality of sowing grain crops.

The technical result is achieved by the fact that the coulters contain a hollow stand-seed tube, a spherical disk and a divider. The concave side of the spherical disk is turned towards the field surface. The divider is installed under the hollow stand-seed tube in the inner cavity of the spherical disk. Behind the coulters, a roller is installed, containing an axle and conical discs mounted on the axle with the possibility of free rotation. Tapered discs are installed on the axis alternately. The smaller bases of the conical discs are directed opposite each other, and the larger bases of the conical discs are directed opposite each other in such a way that the periphery of the roller forms a wedge-shaped surface, the sharp edges of which are directed in the direction of rotation of the leveling type roller. On the lateral surface of each conical disk, semicircular recesses are made in such a way that the formed sharp peaks with equal angular pitch are directed from the larger base of the conical disk towards its smaller base and are perpendicular to the direction of rotation of the conical disk.

In FIG. 1 shows a combined sowing unit, side view, in Fig. 2 - opener, view A, in Fig. 3 - skating rink, top view, in Fig. 4 - section of the conical disk of the roller along the line B-B.

The combined sowing unit contains a frame 1 with a towing device 2. In the central part of the frame there are 3 bins with 4 sowing machines. Support wheels 5 and 6 are installed on the frame 1. The sowing machines are rotated from the support wheel 6 by means of a drive 7. On the frame 1 of the grain seeder by means of brackets 8 coulters 9 are installed in a checkerboard pattern. The coulters contain a hollow stand-seed tube 10, fixed with brackets 8, a spherical disk 11 and a divider 12. The hollow stand-seed tubes 10 are installed with an inclination towards the movement of the combined sowing unit. The concave side of the spherical disk 11 is turned towards the field surface, and the convex side is fixed with the lower end of the hollow stand-seed tube 10. The divider 12 is made conical and installed under the hollow stand-seed tube in the inner cavity of the spherical disk 11 by means of extensions 13. The geometric axis of the divider 12 coincides with the geometric axis of the hollow rack-seed pipe 10. The coulters 9 are connected to the sowing machines 4 of the seed drill by seed pipes (not shown in the figure).

A roller 15 is installed on the frame 1 behind the openers 9 by means of brackets 14. The roller 15 contains an axle 16 and conical disks 17 mounted on the axle 16 with the possibility of free rotation. Conical disks 17 are installed on the axis 16 alternately. The smaller bases of the conical discs 17 are directed opposite each other, and the larger bases of the conical discs 17 are directed opposite each other in such a way that the periphery of the roller 15 forms a wedge-shaped surface 18, the sharp edges of which are directed in the direction of rotation of the roller 15. On the side surface of each conical disc 17, notches 19 are semicircular in shape so that the formed sharp peaks 20 with equal angular pitch are directed from the larger base of the conical disk 17 towards its smaller base and are perpendicular to the direction of rotation of the conical disk 17.

Combined sowing unit works as follows. Previously, with the help of a towing device 2, the unit is coupled to the tractor. Drive 7 sets the required seeding rate. By moving "up and down" the coulters 9 in the brackets 8, the required depth of the coulters 9 in the soil (the depth of seed placement) is set. By adjusting the brackets 8, the necessary inclination of the hollow racks-seed pipes 10 of the coulters 9 is set in the direction of movement of the combined sowing unit.

When the combined sowing unit moves, the spherical disks 11 loosen the soil and cut weeds, and also form a compacted bed for laying seeds in it. Sowing machines 4 through the seed ducts direct the seeds to the hollow racks-seed ducts 10 coulters 9. Seeds moving in the inner cavity of the hollow rack-seed duct 10 fall on the divider 12 and are evenly distributed in the soil under the spherical disk 11. Due to the inclination of the hollow rack-seed duct 10 the back of the spherical disk does not come into contact with the seed bed. The sown seeds are evenly sprinkled with a layer of soil descending from the convex surface of the spherical disk 11.

The roller 15 rotating on the soil copies the topography of the field surface, destroys soil clods with a wedge-shaped surface 18 in the longitudinal direction and sharp tops 20 of the conical disks 17 in the transverse direction. The combined effect of the wedge-shaped surface 18 of the roller 15 and the sharp tops 20 of the conical disks 17 allows you to effectively break up soil clods and level the topsoil.

After the passage of the combined sowing unit across the field, the top layer of soil is leveled, has a finely cloddy structure, and the maximum size of destroyed soil clods does not exceed the minimum size of soil clods allowed by agrotechnical requirements for pre-sowing tillage. The presence of a loose and finely cloddy soil structure in the upper soil layer prevents the evaporation of moisture and the formation of cracks on the soil surface.

Installing coulters 9 on the frame 1 of the seeder in a checkerboard pattern allows you to loosen and sow the entire surface of the field by overlapping the edges of the spherical disks 11.

Making the divider 12 conical and installing it under the hollow stand-seed tube 10 in the inner cavity of the spherical disk 11 allows the seeds to be evenly distributed on the compacted soil bed under the spherical disk 11.

The presence of the roller 15 allows not only to destroy the soil clods left on the field surface after the disc rippers 9 with high quality, but also to loosen the topsoil to the required depth, evenly compact the soil with the given agrotechnical requirements, prevent the evaporation of moisture from the soil and the formation of cracks in the field surface .

Installation on the axis 16 of the conical disks 17, with the possibility of their free rotation, in turn, that the smaller bases of the conical disks 17 are directed opposite each other and the large bases of the conical disks 17 are directed opposite each other in such a way that the periphery of the roller 15 forms a wedge-shaped surface 18, sharp edges which are directed in the direction of rotation of the roller 15, allows the roller 15 to penetrate into the soil with the greatest efficiency and destroy hard lumps.

Execution on the side surface of each conical disk 17 recesses 19 semicircular shape so that the formed sharp peaks 20 with equal angular pitch are directed from the larger base of the conical disk 17 towards its smaller base and perpendicular to the direction of rotation of the conical disk 17, allows you to qualitatively destroy the soil clods, the maximum size of which will not exceed the minimum allowable agrotechnical requirements for sowing values.

The use of a combined sowing machine improves the quality of tillage and sowing, improves the water regime and air conditions for the subsequent development of cultivated plants.

Claims (1)

Combined seeding unit, including a frame with a towing device, a hopper with seeding units, support wheels and coulters, characterized in that the coulters contain a hollow rack-seed tube, a spherical disk and a splitter, while the concave side of the spherical disk is facing the field surface, the splitter is installed under the hollow stand-seed tube in the inner cavity of the spherical disk, and behind the coulters there is a roller containing an axle and conical disks mounted on the axle with the possibility of free rotation, and the conical disks are installed alternately on the axle, the smaller bases of the conical disks are directed opposite each other, and the larger the bases of the conical disks are directed opposite each other in such a way that the periphery of the leveling roller forms a wedge-shaped surface, the sharp edges of which are directed towards the rotation of the roller, in addition, semicircular recesses are made on the side surface of each conical disk in such a way that the resulting i sharp vertices with equal angular pitch are directed from the larger base of the conical disk towards its smaller base and are perpendicular to the direction of rotation of the conical disk.

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