RU211450U1 - COMBINED SEEDER - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to seeders for sowing grain crops. The combined sowing unit includes a frame with a towing device, a hopper with sowing units, support wheels, coulters. Each coulter includes a rack, lancet paw, seed tube. A plate in the form of an isosceles triangle is installed between the wings of the lancet paw. Horizontal grooves are made at the top and at the base of the plate of its longitudinal axis of symmetry. An expander is installed above the horizontal groove located at the top of the plate. The rack is made hollow and installed above the expander. On both sides of the horizontal axis of symmetry of the coulter, symmetrically under the lancet share, there are tetrahedral-shaped soil deepeners, and a fertilizer flow divider is installed in the under-shape space of the lancet share. A C-shaped spreader is installed under the seed tube, and the concave side of the spreader is turned towards the direction of movement of the opener, and the lower part of the spreader is deflected in the direction opposite to the direction of movement of the opener. A packer roller is installed behind the openers. L-shaped brackets with guide bushings, rods with springs, U-shaped frame are rigidly fixed to the rear part of the frame. The press roller is installed in a U-shaped frame. The press roller contains an axle, outer and inner drums, the inner drum is made hollow with a smooth outer surface, and the outer drum is made of rods, and the rods in cross section have the shape of a polyhedron. 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 sowing grain crops.

Known combined sowing unit [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. Rollers are installed behind the seeder.

However, the well-known sowing unit has a drawback, which includes the impossibility of sowing seeds and fertilizers at different depths, as well as the poor quality of the destruction of soil clods during sowing.

The technical result of the utility model is to improve the quality of sowing grain crops.

The technical result is achieved by the fact that each coulter includes a stand, a lancet paw, a seed duct. A knife is installed along the longitudinal axis of symmetry of the lancet paw in its front part in front of the counter, the front edge of which is sharpened. Between the wings of the lancet paw, parallel to its cutting edges, a plate is installed in the form of an isosceles triangle, the apex of which is directed towards the direction of movement of the lancet paw and is rigidly fixed with the sides to the inner sides of the wings of the lancet paw. At the top and at the base of the plate in the form of an isosceles triangle, horizontal grooves are made along its longitudinal axis of symmetry. Above the horizontal groove located at the top of the plate in the form of an isosceles triangle, an expander is installed, made in the form of a trapezoid. The rack is made hollow and installed above the expander. The seed duct is installed vertically along the axis of symmetry of the lancet paw above the horizontal groove located at the base of the plate, and a vertical groove is made on the back side of the lower part of the seed duct. On both sides of the horizontal axis of symmetry of the coulter, symmetrically under the lancet paw, soil deepeners in the form of a tetrahedron are installed and sharp edges are directed towards the direction of movement of the coulter. A fertilizer flow divider, the sides of which are concave, is installed coaxially with the rack along its vertical axis of symmetry in the sub-shape space of the lancet share. An outlet hole is made in the lower part of each subsoiler and directed in the direction opposite to the direction of the coulter movement. A C-shaped spreader is installed under the seed tube and rigidly fixed with the lower part of the plate in the form of an isosceles triangle and the inner sides of the wings of the lancet paw, and the concave side of the spreader is turned towards the direction of the opener movement, and the lower part of the spreader is deflected in the direction opposite to the direction of the opener movement. L-shaped brackets with guide bushings are rigidly fixed to the rear part of the frame of the combined seeding unit. Rods are installed in the guide bushings and supplied with springs. A U-shaped frame is installed under the L-shaped brackets, and a press roller is installed in the U-shaped frame. L-shaped brackets are placed along the longitudinal beams of the U-shaped frame at the same distance from the longitudinal axis of symmetry of the press roller. The rods are pivotally mounted at one end on the longitudinal beams of the U-shaped frame, the other - in the guide bushings, with the possibility of vertical movement of the rods in the guide bushings, and the place of installation of the rods on the longitudinal beams coincides with the continuation of the geometric axis of rotation of the press roller. The press roller contains a single horizontal axis, outer and inner drums. The inner drum is made hollow with a smooth outer surface, and the outer drum is made of rods, and the rods in cross section have the shape of a polyhedron.

In FIG. 1 shows a combined sowing unit, side view;

in fig. 2 - roller;

in fig. 3 - section of the press roller along the line A-A;

in fig. 4 - coulter, side view, in Fig. 5 - coulter, top view;

in fig. 6 - coulter, rear view;

in fig. 7 - cross section of the soil deepener along the B-B line;

in fig. 8 is a diagram of the arrangement of seeds and fertilizers in the soil after the passage of the coulter.

The combined sowing unit comprises a frame 1 with a towing device 2. In the central part of the frame 1 there is a hopper 3 with seed metering 4 and fertilizer metering 5 devices. Support wheels 6 are installed on the frame 1. The rotation of the seed and fertilizer metering devices 4 and 5 is carried out from the rear support wheel 6 by means of the drive 7. Coulters 8 are installed on the frame 1 in a checkerboard pattern.

Each coulter 8 contains a stand 9, a lancet paw 10, a seed duct 11. A knife 12 is installed along the longitudinal axis of symmetry of the lancet paw 10 in front of the stand 9, the front edge of which is pointed. Between the wings of the lancet paw 10, parallel to its cutting edges, there is a plate 13 in the form of an isosceles triangle, the top of which is directed towards the direction of movement of the lancet paw 10, and the sides are rigidly fixed to the inner sides of the wings of the lancet paw 10. At the top and at the base of the plate 13 in the form of an isosceles triangle along its longitudinal axis of symmetry, horizontal grooves 14 and 15 are made. Above the horizontal groove 14, located at the top of the plate 13 in the form of an isosceles triangle, an expander 16 is installed, made in the form of a trapezoid. The stand 9 is made hollow and is installed above the expander 16. The seed tube 11 is installed vertically along the symmetry axis of the lancet paw 10 above the horizontal groove 15 located at the base of the plate 13 in the form of an isosceles triangle, and a vertical groove 17 is made on the back side of the lower part of the seed tube 11. On both lateral sides from the horizontal axis of symmetry of the coulter 8, symmetrically under the lancet share 10, soil deepeners 18 are installed in the form of a tetrahedron and sharp edges are directed towards the direction of movement of the coulter 8. A divider 19 of the fertilizer flow is installed coaxially with the rack 9 along its vertical axis of symmetry in the sub-shape space of the lancet share 10, the sides of which are concave. In the lower part of each subsoiler 18, an outlet hole 20 is made and directed in the direction opposite to the direction of movement of the coulter 8. Under the seed tube 11, a leveler 21 is installed. the side of the screeder 21 is turned towards the direction of movement of the coulter 8, and the lower part of the screeder 21 is deflected in the direction opposite to the direction of movement of the coulter 8.

Seed-and fertilizer-seeding devices 4 and 5 are connected to seed ducts 11 and racks 9 of openers 8 by means of flexible hoses (not shown in Fig.).

On the frame 1 behind the rear support wheels 6 in the brackets 22, a press roller 23 is installed. L-shaped brackets 24 with guide bushes 25 are rigidly fixed to the rear of the frame 1. Rods 26 are installed in the guide bushes 25. Rods 26 are equipped with springs 27. In the lower parts rods 26 nuts 28 are installed with the possibility of their movement along the rods 26. A U-shaped frame 29 is installed under the L-shaped brackets 24, and a press roller 23 is installed in the U-shaped frame 29 with the possibility of oscillations in the vertical plane and regulation of pressure on the soil. L-shaped brackets 24 are located along the longitudinal beams of the U-shaped frame 29 at the same distance from the longitudinal axis of symmetry of the press roller 23. Rods 26 at one end pivotally, with the help of fingers 30, are mounted on the longitudinal beams of the U-shaped frame 29, the other - in the guides bushings 25, with the possibility of vertical movement of the rods 26 in the guide bushings 25, and the place of installation of the rods 26 on the longitudinal beams of the U-shaped frame 29 coincides with the continuation of the geometric axis of rotation of the press roller 23. The transverse beam of the U-shaped frame 29 is hinged, with the help of fingers 31 , connected to L-shaped brackets 24.

The press roller 23 contains a single horizontal axis 32 located perpendicular to the direction of movement of the combined sowing unit, side 33 and intermediate 34 discs, outer 35 and inner 36 drums. On the periphery of the side 33 and intermediate 34 discs with equal angular pitch, recesses in the form of a semicircle are made. Side 33 and intermediate 34 disks are mounted on the axis 32 at regular intervals in the horizontal plane and offset relative to each other in the vertical plane. The outer 35 drum is formed by rods 37 installed in the recesses of the side 33 and intermediate 34 disks along a helical line, and in cross section the rods 37 have the shape of a polyhedron. The inner drum 36 is made hollow, with a smooth outer surface, and is installed between the side discs 33.

Combined sowing unit works as follows.

Previously, with the help of a hitch 2, the sowing unit is coupled to the tractor. With the help of seed and fertilizer seeders 4 and 5 and drive 7, the required seeding rate of seeds and fertilizers is set. The required depth of coulters 8 is set. this ensures a flat furrow bottom, better cutting of weeds and the same depth of placement of seeds and fertilizers. By tightening or unscrewing the nuts 28 on the rods 26, the necessary compression of the springs 27 is achieved, thereby regulating the pressure of the press roller 23 on the soil.

When the combined sowing unit moves, the lancet paws 10 loosen the topsoil and cut weeds. Knives 12, the front edges of which are pointed, additionally crumble the layer of soil raised by the lancet paws 10, and exclude the loading of the soil in front of the racks 9. Fertilizers are sown with fertilizer seeding machines 5 of the planter and through regular flexible corrugated fertilizer lines (not shown in Fig. 1) direct them to the internal cavities of the racks 9. Soil deepeners 18 in the form of a tetrahedron, with a sharp edge directed towards the direction of movement of the openers 8, form grooves under the lancet paws 10 and put fertilizers in them to the required depth through outlet holes 20.

C-shaped spreaders 21 shift the soil from the extreme points of the wings of the lancet paws 10 to the longitudinal axis of symmetry of the lancet paws 10, thereby filling the grooves with fertilizers, and also forming a compacted bed for laying seeds.

Seeds are sown with sowing machines 4 planters, from which, through regular flexible corrugated seed tubes (not shown in figure 1), they enter the seed tubes 11 of the coulters 8 and through the horizontal grooves 14 of the 13 plates and the vertical grooves 17, exit the seed tubes 11 and fall on the wet bed, formed by lancet paws 10 and levelers 21. The layer of soil descending from the wings of the lancet paws 10 moves along the plates 13 in the form of an isosceles triangle and evenly covers the sown seeds and fertilizers.

The roller 23, during rotation, copies the topography of the field surface and with bars 37 intensively mulches undestroyed soil clods with simultaneous leveling and compaction of the field surface, pulling moisture from the lower soil layers to the upper layers. Undestroyed clods of soil fall into the inner cavity of the outer drum 35, are additionally crushed by the inner drum 36, and spill out of the outer drum 35 onto the field surface. At the same time, the maximum size of destroyed soil clods does not exceed the minimum size of soil clods allowed by agrotechnical requirements for sowing.

The installation of coulters 8 on the frame 1 of the sowing unit in a checkerboard pattern allows loosening and cutting weeds on the field surface without flaws due to the overlapping of the wings of the paws 10.

The installation along the axis of symmetry of the lancet share 10 of the knife 12, the front edge of which is pointed, makes it possible to exclude the loading of the soil in front of the stand 9 (as happens with serial lancet shares), and evenly direct the flow of the undercut soil layer onto the plate 13.

The execution of the plate 13 in the form of an isosceles triangle and its installation between the wings of the lancet paw 10 parallel to the cutting edges of the wings of the lancet paw 10, and the top of the plate 13 is directed towards the direction of movement of the lancet paw 10, makes it possible to exclude the instantaneous descent of the undercut soil layer from the wings of the lancet paw 10 and hit it into the groove along with the seeds of cultivated plants.

The execution of the horizontal groove 15 in the plate 13 and the installation of the seed tube 11 vertically above the horizontal groove 15, as well as the execution of the vertical groove 17 on the back side of the lower part of the seed tube 11, guarantees that the outlet of the seed tube 11 will not clog, which directly affects the quality of sowing crops.

Making the rack 9 hollow and installing it along the longitudinal axis of symmetry of the lancet paw 10 above the expander 8 and the divider 19 of the fertilizer flow makes it possible to sow fertilizers in different vertical planes with seeds of cultivated plants and at a distance equal to the required difference in the depth of seeding and fertilizers.

Installation on both sides of the horizontal axis of symmetry of the coulter symmetrically under the lancet paw 10 18 soil deepeners in the form of a tetrahedron, allows you to form grooves below the line of subsequent laying of seeds of cultivated plants.

The implementation of the soil deepeners 18 in the form of a tetrahedron, the sharp edges of which are directed towards the direction of movement of the coulter, makes it possible to ensure that the outlet holes 20 of the soil deepener 18 are not clogged, which directly affects the quality of sowing crops.

Installation under the seed duct AND spreader 21 C-shaped and rigidly fixed with the lower part of the plate 13 in the form of an isosceles triangle and the inner sides of the wings of the lancet paw 10, and the concave side of the spreader 21 faces the direction of movement of the coulter 8, and the lower part of the spreader 21 is rejected in the side opposite to the direction of movement of the coulter 8, allows you to shift the soil from the wings of the lancet share 10 towards the longitudinal axis of symmetry of the lancet share 10 and most completely cover the fertilizers laid in the furrow with soil and qualitatively form a compacted bed for laying seeds of cultivated plants.

Improving the quality of sowing is achieved by installing the 18 soil deepeners and the 11 seed tube in different vertical planes so that their outlets are located from each other at a distance equal to the required difference in the depth of seeding and fertilizers, which also allows seeds and fertilizers to fit into the soil with high quality in different vertical planes and at different heights. The simultaneous execution of the operations of loosening the soil, cutting weeds, sowing fertilizers and seeds allows minimizing the number of separate operations and, thus, reducing the evaporation of soil moisture.

The presence of the roller 23 allows not only to destroy the soil clods remaining after the passage of the coulters 8, but also to uniformly compact and level the topsoil with the specified agrotechnical requirements, to prevent the evaporation of moisture from the soil and the formation of cracks in the field surface.

The presence of rods 26 with springs 27 and nuts 28 allows the roller 23, when it rotates, to copy the topography of the field surface and, accordingly, evenly affect the soil.

Installing the side 33 and intermediate 34 disks on the axis 32 at regular intervals in the horizontal plane makes it possible to exclude the deflection of the rods 37 towards the axis 32 of the press roller 23 when they interact with hard lumps on the soil surface.

Installing the side 33 and intermediate 34 disks on the axis 32 with offset relative to each other in the vertical plane, and the rods 37 are installed in the recesses of the side 33 and intermediate 34 disks in such a way that they form a multi-start helical line, allows the rods 37 to penetrate into the soil smoothly and without impact , exclude vibrations and "bouncing" of the press roller 23.

The implementation of the bars 37 in the cross section is multifaceted - allows the bars 37 with their faces, when interacting with the soil clods, with the lowest energy costs, to destroy the soil clods in the most qualitative way.

The installation of the press roller 23 in the U-shaped frame 29 with the possibility of making oscillations in the vertical plane, and, taking into account the fact that the L-shaped brackets 24 are located along the longitudinal beams of the U-shaped frame 29 at the same distance from the longitudinal axis of symmetry of the press roller 23, and the place of installation of the rods 26 on the longitudinal beams of the U-shaped frame 29 coincides with the continuation of the geometric axis of rotation of the press roller 23, allows the press roller 23 to copy the relief of the field surface without distortions with the entire working surface and, accordingly, with the required effort evenly affect the soil.

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

Claims (1)

A combined sowing unit, including a frame with a towing device, a hopper with seeding units, support wheels, coulters, characterized in that each coulter contains a rack, a lancet paw, a seed tube, along the longitudinal axis of symmetry of the lancet paw in its front part, a knife is installed in front of the rack, the front the edge of which is pointed, between the wings of the lancet paw, parallel to its cutting edges, there is a plate 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 with the inner sides of the wings of the lancet paw, at the top and at the base of the plate in the form of an isosceles triangle along its longitudinal axis of symmetry is made with horizontal grooves, above the horizontal groove located at the top of the plate in the form of an isosceles triangle, a trapezoid expander is installed, the stand is hollow and installed above the expander, the seed tube is installed vertically along According to the symmetry of the lancet paw above the horizontal groove located at the base of the plate, and on the back side of the lower part of the seed tube, a vertical groove is made, on both sides of the horizontal axis of symmetry of the coulter, symmetrically under the lancet paw, soil deepeners in the form of a tetrahedron are installed and their sharp edges are directed towards the direction of movement of the coulter coulter, coaxially to the rack along its vertical axis of symmetry in the sub-shape space of the lancet share, a fertilizer flow divider is installed, the sides of which have a concave shape, an outlet hole is made in the lower part of each soil deepener and is directed in the direction opposite to the direction of movement of the coulter, a C-leveler is installed under the seed tube. shaped and rigidly fixed to the lower part of the plate in the form of an isosceles triangle and the inner sides of the wings of the lancet paw, and the concave side of the screed is facing the direction of the coulter movement, and the lower part of the screed is from tilted to the side opposite to the direction of coulter movement, a press roller is installed behind the coulters, L-shaped brackets with guide bushings are rigidly fixed with the rear part of the frame of the combined seeding unit, rods are installed in the guide bushings and equipped with springs, a U-shaped bracket is installed under the L-shaped brackets frame, and a press roller is installed in the U-shaped frame, and the L-shaped brackets are located along the longitudinal beams of the U-shaped frame at the same distance from the longitudinal axis of symmetry of the press roller, the rods are hinged at one end on the longitudinal beams of the U-shaped frame, the other - in guide bushings, with the possibility of vertical movement of the rods in the guide bushings, and the place of installation of the rods on the longitudinal beams coincides with the continuation of the geometric axis of rotation of the press roller, the press roller contains a single horizontal axis, the outer and inner drums, the inner drum is made hollow with a smooth th outer surface, and the outer drum is made of rods, and the rods in cross section have the shape of a polyhedron.

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