RU197383U1 - COMBINED SEED UNIT - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular, to seeders for sowing grain crops. Each opener includes a stand, lancet paw, vas deferens. On the longitudinal axis of symmetry of the lancet paw, a knife is installed in front of the rack in front of the rack, the front edge of which is pointed. The stand is hollow and mounted along the longitudinal axis of symmetry of the lancet paw. On the continuation of the vertical axis of symmetry of the rack and coaxially to the rack, a subsoiler in the form of a tetrahedron is installed and the sharp edge is directed towards the direction of movement of the opener. An outlet is made in the lower part of the subsoiler and is directed to the side opposite to the direction of movement of the coulter, and the outlet openings of the vas deferens and the subsoiler are located at a distance equal to the required difference in the depth of seed and fertilizer placement. Behind the coulters, a roller attachment is installed containing sequentially mounted rollers, an H-shaped frame, brackets and rods. A nut and spring are installed on each rod. Each roller contains an axis, side and intermediate disks mounted on the axis at equal intervals in the horizontal plane, rippers. The rippers are mounted so that they form a helix. The direction of the helical line of the front roller is directed from the left side disc towards the right side disc. The direction of the helical line of the rear roller is directed from the right side disc to the side of the left side disc. The cultivators in the cross section are diamond-shaped and with sharp edges pointing in different directions from the geometrical axes of rotation of the rollers. Such a design of the combined sowing unit will improve the quality of sowing of grain crops.

Description

The utility model relates to agricultural machinery, in particular to seeders for sowing grain crops.

Known combined sowing unit [Patent RU No. 2293460. - Publ. 02.20.2007, bull. No. 5], including a frame with a tow hitch, a hopper with sowing devices, support wheels, openers. Behind the seeder mounted rollers.

However, the known sowing unit has a disadvantage, which includes the impossibility of sowing seeds and fertilizers at different depths, as well as the low quality of the destruction of soil lumps during sowing.

The technical result of the utility model is improving the quality of sowing crops.

The technical result is achieved by the fact that each opener includes a stand, lancet paw, seed tube. On the longitudinal axis of symmetry of the lancet paw in its front part in front of the rack set a knife, the front edge of which is sharpened. The rack is hollow and set along the longitudinal axis of symmetry of the lancet paw. Between the wings of the lancet paw, a plate in the shape of an isosceles triangle is installed parallel to the cutting edges of the wings of the lancet paw, the top of which is directed towards the direction of movement of the lancet paw, and the sides are rigidly fixed to the inner sides of the wings of the paw. At the base of the plate in the form of an isosceles triangle, a horizontal groove is made. The vas deferens are installed vertically along the axis of symmetry of the lancet paw above the horizontal groove of the plate, and a vertical groove is made from the back of the lower part of the vas deferens. On the continuation of the vertical axis of symmetry of the rack and coaxially to the rack, a subsoiler in the form of a tetrahedron is installed and the sharp edge is directed towards the direction of movement of the opener. In the lower part of the subsoil, an outlet is made and directed in the direction opposite to the direction of movement of the opener, and the outlet openings of the vas deferens and the piping are separated from each other at a distance equal to the required difference in the depth of seeding of seeds and fertilizers. A roller prefix is installed behind the coulters, containing sequentially mounted rollers, an H-shaped frame, brackets and rods. A nut and a spring are installed on each rod. Each roller contains an axis, side and intermediate disks mounted on the axis at equal intervals in the horizontal plane, rippers. On the periphery of the side and intermediate discs, triangular recesses are made. Rippers are mounted in triangular recesses of the side and intermediate discs so that they form a helical line. The direction of the helical line of the front roller is directed from the left side disc towards the right side disc. The direction of the helical line of the rear roller is directed from the right side disc to the side of the left side disc. The rippers in the cross section are diamond-shaped and with sharp edges are directed in different directions from the geometric axes of rotation of the rollers.

In FIG. 1 shows a combined seed drill, side view, in FIG. 2 - opener, side view, in FIG. 3 - opener, rear view, in FIG. 4 - opener, top view, in FIG. 5 is a cross-sectional view of a subsoil along line AA, in FIG. 6 - roller prefix, top view.

The combined sowing unit contains a frame 1 with a towing device 2. In the central part of the frame 1, a hopper 3 with seed sowing 4 and fertilizer 5 is installed. The supporting wheels 5 and 6 are mounted on the frame 1. The rotation of the seed and fertilizer devices 4 and 5 is carried out from the supporting wheel 6 by means of a drive 7. The openers 8 are staggered on the frame 1.

Each opener 8 contains a stand 9, lancet paw 10, seed tube 11. Along the longitudinal axis of symmetry of the lancet paw 10, a knife 12 is installed in front of the stand 9 in front of the stand 9, the front face of which is pointed. The rack 9 is hollow and installed along the longitudinal axis of symmetry of the lancet paw 10. Between the wings of the lancet paw 10, a plate 13 in the shape of an isosceles triangle is installed parallel to the cutting edges of the wings of the paw 10, the apex of which is directed towards the direction of movement of the paw 10, and the sides are rigidly fixed with the inner sides of the wings of the lancet paw 10. At the base of the plate 13 in the shape of an isosceles triangle a horizontal groove is made 14. The seed tube 11 is installed vertically along the s axis metric lancet paws 10 above the horizontal groove 14 of the plate 13, and on the back side of the lower part of the vas deferens 11 a vertical groove 15. On the continuation of the vertical axis of symmetry of the rack 9 and coaxially to the rack 9 mounted subsoiler 16 in the form of a tetrahedron and the sharp edge is directed towards the direction of movement of the opener 8. In the lower part of the subsoiler 16, an outlet 17 is made and directed in the direction opposite to the direction of motion of the coulter 8, and the outlet holes of the seed tube 11 and the subsoiler 16 are located apart a distance equal to the desired difference in depth of seeding and fertilizer.

Seed and fertilizer devices 4 and 5 are connected to the seed tube 11 and the stand 9 of the coulters 8 by means of flexible hoses (not shown in Fig.).

A roller attachment 18 is mounted on the frame 1 behind the support wheels 6. The roller attachment 18 contains sequentially mounted rollers 19 and 20, an H-shaped frame 21, brackets 22 and rods 23. Nuts 24 and springs 25 are installed on each rod 23. Each roller 19 and 20 contains an axis 26, side 27, 28 and intermediate 29 disks mounted on axes 26 at regular intervals in the horizontal plane, rippers 30. Triangular recesses are made along the periphery of the side 27, 28 and intermediate 29 disks. Rippers 30 are mounted in triangular recesses of the lateral 27, 28 and intermediate 29 discs so that they form a helix. The direction of the helical line of the front roller 19 is directed from the left side disc 27 to the side of the right 28 side disc. The direction of the helical line of the rear roller 20 is directed from the right 28 side disk to the side of the left 27 side disk, and the cultivators 30 in cross section are rhombus and with sharp edges are directed in different directions from the geometric axes of rotation of the rollers 19 and 20.

Combined sowing unit operates as follows.

Previously, with the help of a hitch 2, the sowing unit is coupled to the tractor. Using the seed and fertilizer devices 4 and 5 and the drive 7 set the required rate of seeding of seeds and fertilizers. Set the required depth of the openers 8. Make sure that the blades of the lancet paws 10 lie in the same horizontal plane, because this ensures a flat bottom of the furrow, better cutting of weeds and the same depth of seeding of seeds and fertilizers. By tightening or loosening the nuts 24 located on the rods 23, the necessary compression of the springs 25 is achieved, thereby regulating the pressure of the rollers 19 and 20 on the soil.

When the combined sowing unit is moving, lancet paws 10 loosen the topsoil and crop weeds. The knives 12, the front faces of which are pointed, additionally crumble the soil layer raised by lancet paws 10 and exclude soil unloading in front of the uprights 9. Fertilizers are sown with fertilizer fertilizer sowing devices 5 of the seeder and, using standard flexible corrugated fertilizer pipelines (not shown in Fig. 1), direct them to the internal cavity racks 9. Subsoilers 16 in the form of a tetrahedron, with a sharp edge directed towards the direction of movement of the openers 8, form grooves under the pointed legs 10. In the lower part of the subsoil 16, the outlet openings 17 are made and are directed in the direction opposite to the direction of movement of the coulters 8. Fertilizers are laid at the required depth in the groove.

Seeds are sown by sowing machines 4 seeders, from which through standard flexible corrugated seed tubes (not shown in Fig. 1) enter the seed tubes 11 of the coulters 8 and through the horizontal grooves 14 of the plates 13 and the vertical grooves 15 exit the seed tubes 11 and fall on a moist bed formed lancet paws 10. A soil layer descending from the wings of lancet paws 10 moves along the plates 13 in the form of an isosceles triangle and evenly covers the sown seeds.

When the combined sowing unit is moving, the roller 19 copies the relief of the field surface, destroys the soil lumps with the cultivators 30 and partially moves the soil in the direction from the left side disc 27 towards the right 28 of the side disc roller 19. The sharp triangular tops of the cultivators 30 penetrate the soil to the required depth and contribute to high-quality loosening of the upper soil layer.

Next, the rotating roller 20 also copies the relief of the field surface and, when rotated, the cultivators 30 mulch the undisturbed soil lumps with a partial movement of the soil layer in the direction from the right 28 side disc to the side of the left 27 side disc.

After the combined sowing unit has passed through the field, the topsoil is leveled, has a small crumbling structure, and the maximum size of the destroyed soil lumps does not exceed the minimum size of the soil lumps allowed by the agrotechnical requirements for pre-sowing soil cultivation. The presence of a loose and finely lumpy soil structure in the upper soil layer prevents the evaporation of moisture and the formation of cracks on the soil surface.

The installation of openers 8 on the frame 1 of the sowing unit in a checkerboard pattern allows you to loosen and cut weed plants on the surface of the field without blemishes by overlapping the wings of the legs 10.

The installation on the axis of symmetry of the lancet paw 10 of the knife 12, the front edge of which is pointed, eliminates soil unloading in front of the rack 9 (as is the case with serial lancet paws), and evenly direct the flow of the cut soil layer to the plate 13.

The implementation of the plate 13 in the form of an isosceles triangle and installing it between the wings of the lancet paw 10 parallel to the cutting edges of the wings of the paw 10, and the top of the plate 13 is directed towards the direction of movement of the paw 10, eliminates the instantaneous disappearance of the undercut soil from the wings of the paw 10 and hit her into the groove along with the seeds of cultivated plants.

The execution in the plate 13 of the horizontal groove 14 and the installation of the vas deferens 11 vertically above the horizontal groove 14, as well as the execution of the vertical groove 15 from the back of the lower part of the vas deferens 11 guaranteed to exclude the clogging of the outlet of the vas deferens 11, which directly affects the quality of sowing crops.

The implementation of the rack 9 hollow and installing it along the longitudinal axis of symmetry of the lancet paw 10 allows you to ensure the fertilizer is sown in the same vertical plane with the seeds of cultivated plants and at a distance equal to the required difference in the depth of planting of seeds and fertilizers.

Installation on the extension of the vertical axis of symmetry of the rack 9 and coaxially to the rack 9 of the subsoil 16, allows you to form a groove below the line of subsequent placement of seeds of cultivated plants.

The implementation of the subsoiler 16 in the form of a tetrahedron, the sharp edge of which is directed towards the direction of movement of the coulter 8, can guarantee that the clogging of the outlet 17 of the subsoiler 16 is guaranteed, which directly affects the quality of sowing of crops.

Improving the quality of sowing is achieved by installing the subsoil 16 and the seed tube 11 so that their outlet holes are spaced from each other at a distance equal to the required difference in the depth of seeding of seeds and fertilizers, which also allows seeds and fertilizers to be laid qualitatively in the soil in one vertical plane but at different heights.

Simultaneous operations of loosening the soil, cutting weeds, sowing fertilizers and seeds can minimize the number of separate operations that contribute to the frequent mixing of the soil and, thus, reduce the evaporation of soil moisture.

The presence of rollers 19 and 20, containing axes 26, lateral 27, 28 and intermediate 29 discs and cultivators 30, allows not only to destroy the lumps of soil remaining after the openers 8 with high quality, to loosen the top layer of soil to the required depth, but also to compact evenly and align the topsoil with the specified agrotechnical parameters, prevent the evaporation of moisture from the soil and the formation of cracks in the surface of the field.

The presence of rods 23 with nuts 24 and springs 25 allows the rollers 19 and 20, when they rotate, to copy the surface topography of the field and, accordingly, evenly affect the soil.

The installation of lateral 27, 28 and intermediate 29 discs on the axes 26 at equal intervals in the horizontal plane eliminates the deflection of the cultivators 30 towards the axes 26 when they interact with hard lumps on the soil surface.

The installation of rippers 30 in the triangular recesses of the side 27, 28 and intermediate 29 discs in such a way that they form a helix, allows the rippers 30 to penetrate the soil smoothly and without impact, to exclude vibrations and “bouncing” of the rollers 19 and 20.

The implementation of the cultivators 30 in the cross section in the form of a rhombus and their installation with sharp edges in opposite directions from the geometric axes of rotation of the rollers 19 and 20 - allows the cultivators 30 with sharp edges to effectively destroy the lumps of soil.

This improves the quality of sowing, provides the best contact of the seeds with the soil and improves the temperature, water and air conditions for the development of plants.

Claims (1)

Combined sowing unit, including a frame with a tow hitch, a hopper with sowing devices, support wheels, openers, characterized in that each opener contains a rack, lancet foot, seed tube, a knife is installed along the longitudinal axis of symmetry of the lancet paw in front of the rack, front the edge of which is pointed, the rack is hollow and installed along the longitudinal axis of symmetry of the lancet paw, plates are installed between the wings of the lancet parallel to the cutting edges of the wings of the paw in the form of an isosceles triangle, the apex of which is directed towards the direction of movement of the lancet paw, and the sides are rigidly fixed to the inner sides of the wings of the lancet paw, a horizontal groove is made in the base of the plate in the form of an isosceles triangle, the seed tube is installed vertically along the axis of symmetry of the lancet paw above the horizontal groove of the plate, and on the back of the lower part of the vas deferens a vertical groove is made, on the continuation of the vertical axis of symmetry of the rack and coaxially the rack is installed along a deepener in the form of a tetrahedron and with a sharp edge is directed towards the direction of movement of the opener, an outlet is made in the lower part of the subsoiler and is directed in the direction opposite to the direction of movement of the opener, and the outlet openings of the vas deferens and subsoiler are located at a distance equal to the required difference in the depth of insertion seed and fertilizer, behind the coulters installed roller prefix containing sequentially mounted rollers, H-shaped frame, brackets and rods, on each rod installed A nut and a spring are provided, each roller contains an axis, side and intermediate disks mounted on the axis at regular intervals in the horizontal plane, rippers, triangular recesses are made along the periphery of the side and intermediate disks, rippers are installed in triangular recesses of the side and intermediate disks in such a way that they form a helix, the direction of the helical line of the front roller is directed from the left side disk towards the right side disk, the direction of the helix of the rear roller is directed from the right side of the disk in the direction of the left side disk, and the cultivators in the cross section are in the form of a rhombus and with sharp edges are directed in different directions from the geometric axes of rotation of the rollers.

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