RU2362288C2 - Tilling method with fertiliser application and sowing, till-plant assembly - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: proposed method involves cutting under soil and weeds at a given depth using cutting working elements, mainly in form of A-shares, packing the underlying soil layer using the said working elements and preliminary breaking of the soil. The soil is cut below the sowing level. Under the working elements on beds made by the blades, the main fertiliser doses are applied in bands. Subsoil compaction is done over the main fertiliser doses with preparation of the packed seed bed breaking up the soil on top of the seed bed and levelling the soil surface while throwing the said weeds onto it using multifunctional rollers. After that seeds are sown into the ground with or without starter fertiliser doses. The assembly has a frame with a connecting device, supporting wheels and a system for changing height of the frame above the soil. The cutting working elements mainly in form of A-shares, are held to the frame by posts. The posts are provided with devices for receiving and distributing fertiliser. The fertiliser application system has a storage tank, dosing and transportation elements. The assembly has multi-functional rollers linked to the frame, mounted after the working elements. The rollers have ring-shaped rims with spokes, located in the axial direction at a distance from each other at acute angles of attack. In the operating position, the bottom of the multi-functional rollers lies above the level of cutting edges of the working elements. The assembly also has a system for sowing seeds with or without starter fertiliser doses. The system for sowing seeds is provided with shares, located after the multi-functional rollers.

EFFECT: provision for application of main fertiliser doses when sowing and increased uniformity of sowing depth.

9 cl, 3 dwg

Description

The group of inventions relates to agricultural machinery and can be used in machinery for tillage with sowing, the introduction of basic and starting doses of fertilizers.

A known method of tillage and sowing of agricultural crops (RU 2197801 C2, 02/10/2003). It includes layer-by-layer loosening of the arable horizon, application of basic (150 ÷ 300 kg / ha) and starting (30 ÷ 50 kg / ha) doses of fertilizers at different levels. A compacted layer is formed above the main doses of fertilizers, on which seeds are sown and a compacted layer is created above them. This method with loosening the soil to the entire depth of the arable horizon is energy-intensive and inefficient. The scope of its application is very limited by the fact that in most cases such a deep tillage, carried out simultaneously with sowing, is not required.

Known methods of surface, in particular pre-sowing, tillage with simultaneous sowing and the introduction of granular mineral fertilizers (hereinafter - fertilizers or fertilizers), carried out during the operation of combined units (RU 2195096 C1, 2002.12.27 and RU 2293460 C2, 2007.02.20). Each of these methods includes cutting the soil and weeds at a given depth by undercutting working coulters, their compaction of the underlying and preliminary crumbling of the trimmed parts of the soil. In the first case (RU 2195096) on the stock, sealed with cutting working bodies, the main dose of fertilizer is applied. The upright coulters (for seeds) compact the soil above the fertilizers, at the same time forming sowing beds on which the seeds are sown. In the second case, seeds are sown on compacted lodges formed by cutting working bodies along with starting doses of fertilizers. Further, in each case, the seeds are sealed and the soil is compacted above them with grinding and rolling rollers.

Known combined units that implement the considered methods-analogues (sources of information indicated above). Each of these units includes a frame with a tow hitch, support wheels and a system for changing the height of the frame above the soil. The racks are attached to the frame with trimming working coulters. Such openers in the first unit-analogue are made in the form of lancet flat-cut paws with fertilizer spreaders, in the second - in the form of special discs. In the first unit, on the stand of each cutting working body (coulter for fertilizers), a coulter for sowing seeds is fixed in alignment with it, with the possibility of changing its height above the level of the coulter for fertilizers. In each unit, behind the cutting working bodies, grinding-rolling rollers are provided, located in two rows frontally, when their angles of attack are equal to zero. In particular, the second unit (seeder, RU 2293460) has a number of plate rollers and a series of tubular rollers following it, intended for grinding (crumbling) and rolling (compaction) of soil over sown seeds, respectively.

These analogues - methods and aggregates do not allow rational compaction of the trimmed part of the soil to retain moisture in it, do not provide conditions for the effective destruction of weeds. These disadvantages are due to the inherent grinding-rolling rollers used in analogues, frontal local soil compaction with discrete action on it from above (slats, tubes, etc.) without subsurface compaction and lateral shear. The soil treated with such rollers does not have a sufficiently clear demarcation of the dense layer in the zone of seeds and tuks and a loose mulching layer on the surface, which is necessary to maintain moisture and the emergence of friendly shoots. The rollers of analogues, acting on the soil from above, do not extract the trimmed weeds on the surface, but press them into the soil, making them easier to plant.

The prototype of the claimed method is the closest to it the method of tillage with fertilizers and sowing, carried out during the work of the tillage sowing unit (RU 2127502 C1. Publish. 20.03.1999. Bull. No. 8). It includes cutting soil and weeds at a given depth by cutting opener working bodies, in particular, in the form of lancet cultivating paws with devices for receiving and distributing the material introduced into the soil under them, compaction of the underlying and preliminary crumbling of the trimmed parts of the soil, fertilizing and sowing seeds, compaction of the soil above them, the extraction of clipped weeds, loosening of the soil over the compacted layer and leveling its surface. In this case, multifunctional rollers are used having annular rims with spokes located in the axial direction remotely from each other under acute angles of attack.

The prototype of the declared tillage sowing unit, that is, the second group of the invention, is the above unit for the implementation of the prototype method (the same source of information). This unit includes a frame with a connecting, in particular trailed, device, support wheels and a system for changing the height of the frame above the soil. The trimming working bodies, in particular, in the form of lancet cultivator paws, are attached to the frame by uprights. Each of them is made in the form of a coulter, therefore, it has a device for receiving and distributing under this working body the material introduced into the soil, in particular fertilizers or seeds, with or without starting fertilizer doses. After the cutting working bodies, multifunctional rollers are installed, which are ring-shaped, in particular in the form of conical rings, rims with spokes, located in the axial direction remotely from each other at acute angles of attack. In the working position, the bottom of the multifunctional rollers is located above the level of the cutting edges of the cutting working bodies.

These prototypes - the method and the unit are based on the use of the named multifunctional rollers in them, therefore they do not have the drawbacks noted in the considered analogues. However, prototypes have three main drawbacks: firstly, they do not allow the main doses of fertilizers to be applied during sowing, which is important with intensive technologies; secondly, they do not provide stable high-quality seeding to a depth of less than 50 ÷ 60 mm; thirdly, they allow increased unevenness of the depth of sowing.

The main reason for these shortcomings is that in the prototypes fertilizers and seeds are sown simultaneously by the same coulters, the basis of which are cutting working bodies, mainly in the form of cultivating lancet paws, connected to the frame without the possibility of copying the soil. The main dose of fertilizer, introduced into the seed location zone, can burn the root system of plants, therefore, in prototypes during sowing, they are limited to starting doses of fertilizers. The aforementioned type of undercutting working coulters and their connection with the frame are due to the requirements for the implement as a tillage tool, but poorly take into account the requirements for sowing seeds, which is manifested in its second and third drawbacks.

In addition, when using the prototypes on heavy and wet soils, the cutting working bodies with uprights leave longitudinal ridges and furrows on the soil with an increased difference in their levels (additional disadvantage). This violates the conditions for the normal operation of multifunctional rollers, which leads, in particular, to a decrease in the quality of leveling of the soil surface by them, to an increase in the unevenness of the sowing depth, which leads to a crop shortage and reduces the efficiency of the use of prototypes.

The objective of the claimed group of inventions, arising from a single inventive concept, is to increase the efficiency of the method and the unit when cultivating crops, including intensive technologies, by making it possible to apply the main doses of fertilizer during sowing, including sowing to a depth of less than 50 ÷ 60 mm, and also increasing the uniformity of the depth of sowing, that is, by eliminating or at least reducing the main disadvantages of the prototypes.

This problem in the first invention is solved by the fact that the claimed method of soil cultivation with fertilizing and sowing, as well as its prototype, includes cutting soil and weeds at a given depth by cutting working bodies, mainly in the form of lancet paws, preliminary crumbling of the cut soil, fertilizing and sowing seeds, compaction of the soil, extraction of clipped weeds, loosening of the soil over the compacted layer and leveling of its surface. In this case, multifunctional rollers are used, having ring-shaped (hereinafter means made in the form of rings or turns of a helix, for example, as in spiral rollers) rims with spokes located in the axial direction remotely from each other at acute angles of attack. However, unlike the prototype, soil pruning is carried out below the seed level. Under the cutting working bodies, the main doses of fertilizers are introduced into the bed formed by them, scattering in strips. Multifunctional rollers perform subsurface soil compaction over the main doses of fertilizers with the preparation of a compacted sowing bed for seeds, loosen the soil above the sowing bed, level its surface onto which the weeds are thrown out. After that, seeds are sown in the soil with starting doses of fertilizers or without them.

The aforementioned new set of common essential features of the claimed method in all cases of its implementation allows for sowing to introduce the main doses of fertilizer under the cutting working bodies, and sowing the seeds into the qualitatively treated soil with a sowing bed, a loose overlying layer, leveled and mulched surface, with other coulters, located after the multifunctional rollers. This increases the uniformity of sowing seeds with starting doses of fertilizers or without them to a predetermined depth, even less than 50 ÷ 60 mm, in a rationally prepared soil for sowing. All this provides a technical result indicated in the task of inventions.

In special cases of the method, the main doses of fertilizers are scattered in strips whose average width is at least half the working width of the cutting working body, and when sowing, at least most of the rows of seeds with or without starting doses of fertilizers are formed over the strips of the main doses of fertilizers. The named interrelation of the indicated indicators and the actions taken increases the efficiency of using the main doses of fertilizers, facilitating access to them of the plant root systems at the appropriate stages of their development and crop formation.

In the second invention, the above general problem is solved in that the declared tillage sowing unit, as well as its prototype, includes a frame with an attachment, a device and support wheels, a system for changing the height of the frame above the soil, trimming working bodies, mainly in the form of pointed arms, attached by uprights to the frame and equipped with devices for receiving and distributing fertilizers introduced into the soil under these working bodies, a fertilizer supply system for said devices containing a hopper, metering and a protractor components as well as multifunctional rollers connected to the frame. These rollers are installed after the cutting working bodies and have annular rims with spokes located in the axial direction remotely from each other at acute angles of attack. In the working position, the bottom of the multifunctional rollers is located above the level of the cutting edges of the cutting working bodies. However, unlike the prototype, the unit additionally has a seed sowing system with starting doses of fertilizers or without them, equipped with openers located after the multifunctional rollers.

This new set of common essential features of the unit in all cases of its implementation and operation implements the claimed method, which, as noted above, always provides the technical result specified in the task of inventions.

In specific cases, the seed sowing system is made in the form of a seeder, in particular grain-fertilizer, connected to the frame of the unit, for example, a mounted device. This simplifies the manufacture of the unit, and also increases the seasonal loading of its components. For example, in justified cases, its mounted or trailed seeder can be aggregated with an appropriate tractor, performing crop sowing using conventional technologies. The rest of the unit can perform pre-sowing cultivation of the soil with sowing seeds under the cutting working bodies with or without starting fertilizer doses, and at other times process vapors with or without fertilizer application.

In addition, in the seed sowing system, the coulters are installed with the possibility of forming rows of seeds symmetrical to the longitudinally vertical plane of symmetry of each cutting working body and located mainly above the main dose of fertilizer strip formed using the said working body. This relationship of the placement of the coulters of the seeding system relative to the cutting working organs improves the access of the root systems of plants located in rows to the main doses of fertilizers, increasing the efficiency of their use. In other words, this implements a rational interconnection of actions provided for by the claimed method in particular cases of its implementation (paragraph 2 of the formula).

In addition, leveling devices are provided between the cutting working bodies and the multifunctional rollers, at least for smoothing the longitudinal ridges and grooves formed on the soil by the passage of the cutting working bodies in it. Such devices eliminate the additional disadvantage of the prototype, reducing the difference in levels of these ridges and furrows, improve the working conditions of multifunctional rollers, thereby improving the leveling of the soil and the uniformity of seeding. This enhances the main technical result of the inventions.

In addition, the leveling devices have plows with uprights with which these plows are connected to the frame. This provides a fairly simple design of such devices.

In addition, the working surfaces of the plows of leveling devices are tilted forward in the direction of their movement or backward and simultaneously turned to the right or left to shift the soil from the longitudinal ridges in the transverse direction, opposite to the direction of the subsequent lateral displacement by its multifunctional rollers. The named orientation of the working surfaces of the plows allows them to level the furrows and at the same time provides a new technical result, that is, compensates for the subsequent lateral displacement of the soil by multifunctional rollers. This evens out the surface of the soil for sowing and reduces unevenness at the joints between adjacent passages of the unit, which further improves the quality of its work.

In addition, the leveling devices are connected to the frame with the possibility of changing their position in the transverse direction and in height. This allows you to rationally place leveling devices for their effective impact on the above ridges and furrows, which improves the operation of the unit.

The invention is illustrated by drawings. Figure 1 shows the claimed tillage sowing unit, side view, example; figure 2 - remote element A of figure 1; figure 3 is a diagram in plan, explaining the sequence and results of interaction with the soil of the working bodies of the unit, its middle part, on which transverse sections (a, b, c, d) are conventionally shown behind the rows of working bodies, showing changes in the structure and topography of the soil after the relevant working bodies.

In the drawings, the following position designations are adopted:

1 - frame; 2 - connecting device; 3 - a basic wheel; 4 - a system for changing the height of the frame above the soil; 5 - cutting working bodies; 6 - racks of cutting working bodies; 7 - multifunctional rollers; 8 - rims of rollers; 9 - spoke rollers; 10 - a device for receiving and distribution under the cutting working body of the material introduced into the soil; 11 - leveling devices (assembly assembly); 12, 13 — longitudinal ridges and grooves formed on the soil by the passage of cutting organs in it; 14, 15 - plows and racks of leveling devices; 16 - transverse beam; 17, 18 - racks of the transverse beam and their brackets; 19 - longitudinal axial line of the unit; 20 - rack bearing bearings rollers; 21 - a mechanism for changing the position of the rollers in height; 22, 23 - a hopper for the material introduced into the soil and flexible pipelines of the dosing system and pneumatic supply of this material to the devices for its reception and distribution under the cutting working bodies; 24 - hydraulic cylinders of parallelogram mechanisms of the front wheels; 25 - lever pendulum mechanism of the rear wheels; 26 - a system for sowing seeds with starting doses of fertilizers or without them; 27 - openers sowing seeds; 28 - device for additional seeding; 29 - attachment.

Tillage sowing unit (figure 1) has a frame 1 with a connecting, in particular trailed, device 2, supporting front and rear wheels 3 and a system 4 for changing the height of the frame 1 above the soil, cutting working bodies 5, attached by the uprights 6 to the frame 1. Workers organs 5 are made mainly in the form of cultivating lancet paws, as in our example (Figs. 1, 3). Although they can be different, for example, in the form of spherical disks fixed by convexity upwards on tubular posts connected with the frame 1 with the possibility of rotation (similar to coulters of the analogue of RU 2293460). In our case, the cutting working bodies 5 in the form of lancet paws are staggered in two rows with overlapping each other (figure 3). After the working bodies 5, multifunctional rollers 7 are installed (Figs. 1, 3), connected with the frame 1 with the possibility of changing their height position. The rollers 7 have ring-shaped rims 8 with spokes 9 located in the axial direction remotely from each other under acute angles of attack α = 10 ÷ 35 ° (Fig. 3), the value of which depends on the properties of the soil and the parameters of the rollers.

Each cutting working body 5 is made in the form of a coulter. Therefore, it is equipped with a device 10 (figure 1) for receiving and distribution under this working body of the material introduced into the soil, that is, the main dose of fertilizer. The device 10 allows you to distribute the main dose of fertilizer with strips with a width of at least half the working width of the working body 5. Between the working bodies 5 and rollers 7 are provided leveling devices 11 (figure 1) at least to smooth the longitudinal ridges 12 and furrows 13 (figure 3) formed on the soil by the passage in it of cutting working bodies 5 with uprights 6 (figure 1).

The leveling devices 11 (Fig. 1) have plows 14 with uprights 15 (Figs. 2, 3), with the help of which the plows 14 are connected to the frame 1. This connection is made by means of the transverse beam 16 with its uprights 17 and brackets 18 fixed to the frame 1 (FIG. 2). In this case, it is possible to change the position of the plows 14 (Fig.2, 3) of the leveling devices 11 (Fig.1) relative to the frame 1 in the transverse direction by displacing the racks 15 on the beam 16 (Fig.2), on which they are fixed with special clamps, and height - by moving the vertical struts 17 in the brackets 18. The racks 15 connecting the plows 14 with the beam 16 are made in the form of S-shaped springs. This protects the leveling device 11 (Fig. 1) from damage, for example, if there are stones on the field, and also contributes to better crumbling of the soil.

The working surfaces of the plows 14 of the leveling devices 11 can be tilted forward in the direction of their movement, as in this example (Figs. 1-3), or backward. At the same time, they are rotated to the right or left, respectively, at angles β and -β (Fig. 3), for shifting the soil from the longitudinal ridges 12 in the transverse direction, in particular closer to the axial line 19, opposite to the direction of the subsequent lateral displacement by its multi-function rollers 7 further from lines 19. This is necessary, firstly, for leveling the furrows 13, and secondly, to compensate for the displacement of the soil by rollers 7.

Multifunctional rollers 7 are combined in sections located to the right and left of the axial line 19 at angles of attack α and -α (figure 3). Section rollers 7 vertical racks 20 (figure 1) of their bearing bearings are connected to the frame 1 by means of adjusting, in particular screw, mechanisms 21, allowing you to change the position of these rollers in height. In working condition, the bottom of the multifunction rollers 7 should be located above the level of the cutting edges of the cutting working bodies 5.

The unit (figure 1) has a system for supplying the main doses of fertilizer to the devices 10. It contains a hopper 22 with metering and dividing devices, a fan with a drive (not shown), flexible pipelines 23, that is, elements of pneumatic supply of the main doses of fertilizer to the devices 10 cutting working bodies 5.

The system 4 of changing the height of the frame 1 above the soil includes parallelogram mechanisms of the self-aligning front wheels 3 (Fig. 1), equipped with hydraulic cylinders 24, on the rods of which special stops are installed to regulate the depth of the soil cultivation by cutting working bodies 5. For the rear, right and left, support wheels 3 in the aforementioned system, a lever-pendulum mechanism 25 is provided. It has a common axis with supports fixed on the frame 1, a hydraulic cylinder for turning this axis, which is combined by pipelines (not shown) with a hydraulic cycle 24 ndrami front wheel 3. On the rod of the hydraulic cylinder mechanism 25, the rear wheel 3 is also provided to adjust the predetermined stop position of the frame 1 in the operating condition of the unit, for example the horizontal, the horizontal adjusting site.

The unit has a system 26 for sowing seeds with starting doses of fertilizers or without them (Figs. 1-3), equipped with openers 27 with devices 28 (for example, seed drills) for additional seed placement located after the multi-function rollers 7. System 26 is made in the form of a seeder, connected to the frame 1 of the unit. In this example (Figs. 1-3), the seed sowing system 26 is a mounted pneumatic grain-fertilizer seeder connected to the frame 1 of the unit by a mounted device 29. Its copy coulters 27 are single-disc and mounted on spring-loaded swingarm leads.

In the system 26, the openers 27 are installed with the possibility of forming rows of seeds symmetrical to the longitudinally vertical plane of symmetry of each cutting working body 5 and located mainly above the strip of the main dose of fertilizers formed using this working body 5 (see Fig. 3, where the trace of the named plane is indicated by an axial line drawn from each working body 5 parallel to the longitudinal axis 19). In this example (figure 1, 3), the openers 27 are arranged in two rows in a checkerboard pattern. After each working body 5 to the right and left of its longitudinally vertical plane of symmetry above the zone of location of the band of the main dose of fertilizers, two openers 27 are installed: on the left - the opener of the front row, on the right - of the rear (figure 3).

System 26 (FIG. 1), that is, the named seeder, has wheels for supporting them in the working position. The hitch mechanism 29 provides the system (seeder) 26 with free copying of the soil in the working position and fixes it from lateral displacements relative to the frame 1 in the working and transport positions.

When preparing the unit for operation, its connecting device 2 (Fig. 1) is attached to a tractor (not shown), to the hydraulic system of which the hydraulic cylinders of the mechanisms of the front and rear wheels 3 are connected, and other necessary actions are performed. Preliminary adjustments are made to the position of the working bodies (in plan and in height) at the adjustment site and refined when working in the field.

The unit works (Fig.1-3), implementing the claimed method, as follows. For example, a ready-to-operate unit in a transport state (Fig. 1), in which its frame 1 with all the elements associated with it, including the seed sowing system 26, is raised, is located at the beginning of the field padding with a stubble background. To get started, the drives include pneumatic feed systems for materials introduced into the soil, in particular the main doses of fertilizer from the hopper 22 to the devices 10, as well as seeds with starting doses of fertilizers or without them from the hopper of the system 26 to its coulters 27. When the unit moves it is transferred to working condition with the help of a tractor hydraulic system. At this time, the system 4 changes the height of the frame 1 above the soil (Fig. 1).

Under the influence of the weight of the unit, the rods are pressed into the hydraulic cylinders of the 24 front mechanisms and the hydraulic cylinder of the mechanism of the 25 rear wheels 3, as far as the stops installed on them allow. Frame 1 lowers to the lower position, and all the working bodies connected with it, including the openers 27 of the seed sowing system 26, that is, the mounted grain-fertilizer seeder, which began to rely on its wheels, are buried in the soil by the values set for them. At the same time, the drives of the metering elements of the above systems for pneumatic feeding of the materials introduced into the soil to the devices 10 of the cutting working bodies 5 and to the openers 27 of the seed sowing system 26 are automatically switched on.

When the operating mode of the unit is moving at a speed of, for example, 2.2 ÷ 3 m / s (8 ÷ 11 km / h), its working bodies 5 (Figs. 1, 3) are cut at a given depth (for example, 100 mm) soil with weeds and plant (crop) residues. Undercutting working bodies 5, installed in width with overlapping each other (figure 3), compact the underlying and pre-crumble due to deformation when raising and lowering the trimmed part of the soil. In this case, each working body 5 opens a furrow in the soil with a compacted bottom, forming a bed for the material introduced into the soil. The device 10 scatters on this bed under the working body 5 at least half of its working working width the material introduced into the soil, that is, the main dose of fertilizers entering this device through the flexible pipe 23 (hereinafter, the dose of fertilizers should be understood as part of their total dose related to one opener). The resulting strips distributed on the compacted bed of the main doses of fertilizers are covered with a layer of soil coming down from the working bodies 5.

The cropped part of the soil when leaving the working bodies 5, having the speed of the unit (2.2 ÷ 3 m / s), bypasses their upper parts and posts 6 on the left and on the right, partially deviating to the corresponding sides. Therefore, under the cutting working bodies 5 and their racks 6 on the soil there are bumps, sometimes significant, in the form of longitudinal ridges 12 and furrows 13 (Fig. 3, a). The difference between the levels of H ₁ ridges 12 and furrows 13 depending on the type and condition of the soil, dimensions and the depth of the working bodies 5 can vary within wide limits, for example, H ₁ = 40 ÷ 120 mm This in the prototypes of the method and the unit worsens the working conditions of the multifunctional rollers 7, the bottom of which in these cases passes over the bottoms of deep furrows, so the soil is processed, in particular, compacted and leveled, worse.

In our example, soil surface leveling begins with a preliminary stage in which, at least for smoothing the longitudinal ridges 12 and furrows 13 (Fig. 3), they are affected by leveling devices 11 (Fig. 1) provided between the cutting working bodies 5 and the rollers 7. The plows 14 (Fig.2, 3) of the leveling devices 11, located to the right of the axial line 19 of the unit and to the left of it (Fig.3), due to the corresponding rotation of their working surfaces at angles β and -β, shift the soil from about half the height of the ridges 12 (figure 3, a) to the side on bathroom line. Due to the shift of the soil from the ridges 12 in the indicated transverse direction, firstly, the furrows 13 are equalized with simultaneous crushing and compaction of the soil, which evens out its surface, reducing the difference in the level of depressions and protrusions, for example, to H2 = 30 ÷ 60 mm (Fig. 3b); secondly, partial movement of soil to the right and left closer to line 19, that is, to the middle of the aggregate (figure 3), to compensate for the subsequent displacement of the soil by rollers 7 (shifting part of the soil to the edges of the aggregate).

Next, the cut soil layer prepared by the considered operation of the plows 14 (Fig. 2, 3) of the leveling devices 11 (Fig. 1) is treated with multi-function rollers 7, sections of which are installed to the right and left of the center line 19 at angles of attack α and -α, respectively (figure 3). The rollers 7, loaded with part of the weight of the unit, are rolled buried into the soil so that the bottom of their rims 8 passes under its surface above the soil layer, compacted by cutting working bodies 5, with the main doses of fertilizer bands distributed on it, for example, at a height of H _ps from them = 40 ÷ 45 mm (Fig. 3, c).

Rims 8 with knitting needles 9 rollers rolling with a shear 7 when entering the soil are compressed by its frontal surfaces, destroying lumps and creating, underneath, therefore, over the main doses of fertilizers at a height of H _ps , a compacted subsurface layer, which, firstly, increases the efficiency of fertilizers and secondly, forms the basis of a compacted sowing bed, on which seeds will be sown by coulters 27. Upon leaving the soil, the rims 8 of multi-function rollers 7 loosen it above the compacted layer formed by them and extract the main part (up to 98%) of weeds and other plant residues trimmed by working bodies onto the surface (comb out) 5. Soil flowing around the rim sections 8 with knitting needles 9 (figures 1, 3), passes through the cavity of the rolling rollers 7 (separated) and is placed behind them, forming a loose, leveled surface. Trimmed weeds and other plant residues extracted from the soil are thrown onto this surface of the rim 8, which then dries up, forming a mulching layer with loose soil.

In addition, passing in the soil, the rims of 8 rollers 7 with external lateral surfaces shift a part of it in the transverse direction from the middle of the unit to its edges, leveling the surface and returning to the place the part of the soil that was specially offset by leveling devices 11 from the edges of the unit closer to its center line 19 (figure 3). These interrelated, mutually compensating actions of the devices 11 and rollers 7 provide three positive effects - additional technical results that increase the quality of the unit.

Firstly, the thickness of the loose mulched soil layer over the compacted subsurface layer is uniform over the width of the aggregate grip, that is, the even depth of incorporation of the material introduced into the soil (basic doses of fertilizers). Secondly, they create an important condition for ensuring a uniform depth of seed placement with starting doses of fertilizers or without them, sown by system 26 (Fig. 4), that is, a grain-fertilizer seeder. Thirdly, they exclude the formation of longitudinal irregularities in the form of rolls at the joints of the strips from adjacent passages of the unit. All this improves its work, eliminating the corresponding disadvantages of the prototypes.

So, according to the claimed method, rollers 7, working after leveling devices 11 (Fig. 1), carry out subsurface soil compaction over the main doses of fertilizers, which prepare a compacted sowing bed for seeds, loosen the soil over the sowing bed, level its surface onto which the extracted clipped weeds, forming a mulching layer. The difference in the levels of protrusions and depressions on the soil behind the rollers 7 is H ₃ = 20 ÷ 30 mm (Fig. 3, c). All this creates good conditions for high-quality sowing of seeds to a given depth.

Sowing seeds with starting doses of fertilizers or without them is carried out by system 26 with openers 27 (Figs. 1, 3), that is, a pneumatic mounted grain-fertilizer seeder operating in the corresponding mode. Such a system 26 of sowing seeds, connected with the frame 1 of the unit by a mounted device 29, freely copies the soil, rolling on its wheels. Her single-disc coulters 27 mounted on spring-loaded leashes in two rows in a checkerboard pattern (Fig. 3) move evenly buried in a loose soil layer to a subsurface compacted layer (to the sowing bed).

Each opener 27 opens a furrow in the soil, at the bottom of which, that is, on the sowing bed prepared by rollers 7 (Fig. 3), sows seeds with or without fertilizer starting dose, which are supplied to this opener by pneumatic transport using the corresponding elements of system 26 (Fig. .one). After the openers 27 pass, the furrows behind them are closed due to shedding of their walls, falling asleep (seeding in the soil) rows of sowed seeds with starting doses of fertilizers or without them.

Following the openers 27 of the device 28 additional seeding seeds compact the soil above the rows, providing a predetermined sowing depth, in this example, N _p = 40 mm (Fig.3, g), and reliable contact with the soil of the seeds with starting doses of fertilizers or without them. In the absence of the need to use devices 28, for example, in wet soil, they can be raised above it. Strips of loose mulched soil located between rows sealed with devices 28 (FIG. 3, d) subsequently naturally settle. The surface of the soil in the sown field is leveled, which additionally saves soil moisture.

In our example (Figs. 1-3), due to the previously discussed rational arrangement of the coulters 27 with respect to the longitudinally vertical plane of symmetry of each cutting working body 5 (Fig. 3), two rows of sown seeds are placed above each strip of the main dose of fertilizers (see Fig. 3 , g). As a result of this, all rows of seeds are placed above the strips of the main doses of fertilizers applied by means of working bodies 5 equipped with devices 10 (Fig. 1). This implements the most rational version of the claimed method in the particular case of its implementation.

At the end of the fold, the unit is transferred to the transport position, doing this in the reverse order, in particular, using the tractor hydraulic system, raise the frame 1 with all the working bodies connected with it. In this case, the drives of the metering elements of the pneumatic systems are automatically switched off, therefore, the supply of materials introduced into the soil to the devices 10 of the cutting working bodies 5 and to the openers 27 of the seed sowing system 26 is stopped.

So, the inventions provide the ability to make the main doses of fertilizer during sowing, including sowing to a depth of less than 50 + 60 mm, as well as increasing the uniformity of the depth of sowing, with or without starting doses of fertilizer, in a well-treated soil with a compacted sowing bed, weed destruction and preservation moisture, rational use of fertilizers, friendly shoots, their normal development and increase in productivity. All this increases the efficiency of the application of the claimed method and unit, including with intensive technologies of cultivation of crops.

Other examples of the implementation of the claimed unit are possible. For example, in justified cases, it can be performed in semi-mounted design with the corresponding changes in its layout, wheel drive and other elements. The working surfaces of the plows of leveling devices can have a curved shape, which can improve their work, but will increase the cost of such plows. Different leveling devices are possible.

Claims (9)

1. A method of tillage with fertilizing and sowing, including cutting the soil and weeds at a given depth by cutting working bodies, mainly in the form of lancet paws, pre-cutting them with cropped soil, applying fertilizers and sowing seeds, compaction of the soil, removing the weed, loosening the soil above the compacted layer and leveling its surface, using multifunctional rollers having annular rims with spokes located in the axial direction remotely from each other hectares at acute angles of attack, and cutting the soil is carried out below the level of sowing seeds, while under the cutting working bodies on the bed formed by them, the main doses of fertilizers are spread in strips, and multifunctional rollers perform subsurface soil compaction over the main doses of fertilizers with the preparation of a compacted sowing bed for seeds, loosen the soil above the sowing bed and level its surface onto which the extracted weeds are thrown, and after that the seeds are sown in the soil with starting doses of ud rhenium or without them. 2. The method according to claim 1, characterized in that the main doses of fertilizer are scattered in strips, the average width of which is at least half the working width of the cutting working body, and when sowing at least most of the rows of seeds with or without starting fertilizer doses are formed over bands of the main doses of fertilizers. 3. Tillage sowing unit, including a frame with a connecting device and support wheels, a system for changing the height of the frame above the soil, cutting working bodies, mainly in the form of lancet paws, attached to the frame by racks and equipped with devices for receiving and distributing the soil into these working bodies fertilizers, a system for supplying fertilizers to the aforementioned devices, containing a hopper, metering and conveying elements, as well as multifunctional rollers associated with the frame, installed after cutting working bodies and having ring-shaped rims with spokes located axially remotely from each other at sharp angles of attack, while in the working position the bottom of the multifunctional rollers is located above the level of the cutting edges of the cutting working bodies, and the unit additionally has a seed sowing system with starting doses fertilizers with or without fertilizers, equipped with openers located after multifunctional rollers. 4. The unit according to claim 3, characterized in that the seed sowing system is made in the form of a seeder, in particular grain fertilizer, connected to the frame of the unit, for example, a mounted device. 5. The unit according to claim 3 or 4, characterized in that the coulters are installed in the seed sowing system with the possibility of forming rows of seeds symmetrical to the longitudinal-vertical plane of symmetry of each cutting working body and located mainly above the strip of the main dose of fertilizers formed with using the said working body. 6. The assembly according to claim 3, characterized in that between the cutting working bodies and the multifunctional rollers are provided leveling devices for at least smoothing the longitudinal ridges and furrows formed on the soil by the passage of the cutting working bodies in it. 7. The unit according to claim 6, characterized in that the leveling devices have plows with struts associated with the frame. 8. The unit according to claim 7, characterized in that the working surfaces of the plows of the leveling devices are tilted forward, in the direction of their movement, or backward and simultaneously turned right or left to shift the soil from the longitudinal ridges in the transverse direction, opposite to the direction of the subsequent lateral displacement by its multifunctional skating rinks. 9. The unit according to claim 6, characterized in that the leveling devices are connected with the frame with the possibility of changing their position in the transverse direction and in height.

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