RU2086087C1 - Sowing method and apparatus - Google Patents

Abstract

FIELD: agriculture and agricultural engineering. SUBSTANCE: method involves wide-row sowing of seeds by making compacted bed in soil; laying seeds; covering bed with soil, compacting by compaction rolls and simultaneously shifting top layer of soil aside to form ridges. Upon laying of seeds, soil bed is laterally shifted and pressed together with seeds into bed bottom. Soil ridges are formed by shifting top layer, which had been preliminarily moved aside, onto bed with seeds and compacting soil. Apparatus has sowing sections with skid-type share and ripper-ridge former, soil deformer positioned behind share, additional ridge former positioned behind soil deformer in front of compaction roll. Ridge former has moldboards with clearance along share axis. EFFECT: increased efficiency and improved quality of soil. 7 cl, 9 dwg

Description

 The invention relates to agriculture and agricultural machinery, and in particular to technologies for sowing crops and to sowing machines.

 A well-known wide-row method of sowing row crops of corn, sunflower, soybeans and a number of other crops, when the seeds are sown with rows of 45-90 cm; sowing is carried out with seeders containing sowing sections, including a crawler opener, a hopper for seeds with a sowing apparatus, a stub, a roller-roller, etc.

 The reasons that impede the achievement of the required technical result when using the known method and device include insufficiently effective seed placement in the soil, as a result of which the seeds are not forcibly pressed into moist soil, which, in turn, leads to a decrease in yield.

 The closest method and device for its implementation of the same purpose to the claimed method and object according to the totality of features is the method and device according to which the soil is cultivated and wide-row seed sowing by forming a compacted bed in the soil, laying seeds, closing the bed with soil and compacting the soil with rollers with simultaneous displacement to the sides of the upper soil layer and the formation of soil ridges, while the device for sowing contains sowing sections, including a skid-shaped opener with n d them hopper apparatus for sowing seed and the sealing roller mounted in front of the coulter ripper-grebneobrazovatel a symmetrically arranged at an angle to the plane of its two surfaces with plane with grebneobrazuyuschimi taken as a prototype.

 The reasons that impede the achievement of the required technical result when using the known method and device adopted as a prototype include the lack of guarantees for the interaction of seeds only with moist soil and the lack of soil over the seeds, as a result of which the vegetative period of seeds and plants occurs in insufficiently favorable conditions, which leads to to reduce seed germination and productivity.

 The problem to which the invention is directed, increasing the efficiency of planting seeds in the soil.

 EFFECT: guarantee contact of seeds with moist soil and increase in soil volume over seeds, which results in increased germination and productivity.

The specified technical result in the implementation of the invention is achieved by the fact that in the known method of sowing after placing seeds in a compacted bed, the soil is displaced from the sides of the soil bed and pressed together with the seeds into the bottom of the bed, and soil ridges are formed by displacing the upper soil layer pushed to the sides on the bed with seeds, after which the ridges are compacted with rollers. In the known device for sowing, the sowing sections are equipped with a soil deformer installed behind the coulter, the width of which is greater than the largest coulter width, and installed after the soil deformer and in front of the compacting roller with an additional comb former, made in the form of two symmetrically located at an angle to the longitudinal axis of the coulter and deflected to the side, opposite to the deviation angle of plane cutters, dumpers, the capture width of which is greater than the width of the ripper-comb former, while the dumpers are installed at a distance from the longitudinal axis of the opener, forming a solution of a width less than the width of the sealing roller. Along with this, the frontal plane of the soil deformer is made in a logarithmic spiral; the width of the deformer is 1.05-1.15 times the largest width of the opener; dumpers of an additional combing machine are installed with the possibility of changing the working width and the width of the mortar; these dumpers in normal section are made in the form of a vertical segment of a hollow cylinder; the comb-forming surfaces of the ripper-comb-former are located along the entire length of the plane cutters and in a normal section are made in the form of a segment of a hollow parabolic cylinder, deviated from the vertical by an angle of 5-15 ^o .

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, made it possible to establish that the applicant has not found an analogue characterized by features identical to all the essential features of the invention. Therefore, the invention meets the requirement of "novelty" under applicable law.

 The applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the invention from the prototype. The results show that the invention is not obvious to a person skilled in the art, in particular, no known transformations are envisaged. Therefore, the invention meets the requirement of "inventive step" under applicable law.

 In FIG. 1 shows the stages of deformation and movement of soil and wide-row sowing; in FIG. 2 sowing section of the device for sowing, side view; in FIG. 3 the same, plan view; in FIG. 4, section AA in FIG. 2; in FIG. 5, section BB in FIG. 3; in FIG. 6, section BB in FIG. 3; in FIG. 7 section GG in FIG. 2; in FIG. 8 section DD in FIG. 3; in FIG. 9 section EE in FIG. 6.

 When the crawler coulter moves, the sowing device 1 first cuts a gap in the soil (Fig. 1, a). After that, the upper soil layer is cut to the left and to the right of the slit (Fig. 2, b), which is then shifted to the sides with the formation of soil ridges (Fig. 2, c). At the same time, the gap is expanded and compacted to form a compacted bed in the soil where the seeds are laid. Next, in the lower part of the bed, an additional shift is carried out from the sides of the bed of soil and its indentation together with the seeds into the bottom of the bed (Fig. 2, d). After the opener passes, the upper soil layer pushed to the sides in the form of lateral ridges is displaced on the bed with seeds and a single wider and shallower soil ridge is formed along the trail of the opener (Fig. 1, e), after which the ridge is compacted with a roller (Fig. 1, e )

The device for sowing contains sowing sections, each of which includes (Fig. 2-9) a seed-shaped opener 1 with a seed meter 2 above the seed hopper 3 and a sealing roller 5 pivotally connected to it by spring leashes 4; rods 6 are fixed on the roller axis with equalizer 7 at their end. In the front part of the opener 1, a ripper-comb former 8 is installed in the form of two plane cutters 9 symmetrically located at an angle to the opener plane with comb-forming surfaces along the entire length of the plane cutters. Behind the opener 1, a soil deformer 10 is installed, the width a _{1 of} which is greater than the largest width a _{2 of the} opener. After deformer soil 10 and front sealing roller 5 on the spring loaded rods 11 is optional grebneobrazovatel 12 made in the form of two symmetrically arranged at an angle to the longitudinal axis ll opener 1 and deflected in the direction opposite to the deflection angle ploskorez 9 otvalchikov 13. Width B ₁ capture dumpers more than the width B of the grasp of the cultivator-combing machine 8, while the dumpers 13 are installed at a distance from the longitudinal axis ll of the coulter 1, forming a solution whose width B ₂ is greater than the width B _{3 of the} sealing chamber weave 5.

The sowing section by rods 14, which are links of a hinge-parallelogram structure, is connected to the frame 15 of the sowing device. Inside the seed section, the front sock of the opener 1 is additionally supported by rods 16. The skid-shaped opener in plan (Fig. 4, 9) has a variable cross-section: in the front part it is a pointed rib “a”, which then expands asymmetrically with respect to the longitudinal axis ll in the rear part “b” "The opener has a width of a ₂ . Located behind the coulter, the soil deformer 10 (Fig. 6, 9) has a U-shaped cross section, the width a _{1 of} which is 1.05-1.15 times the largest width a _{2 of the} coulter: a ₁ = (1.05-1.15 ) a ₂ . The frontal plane "c" of the soil deformer 10 is made in a logarithmic spiral. The dumps 13 of the additional combing tool 12 are mounted with the possibility of changing the width B ₁ capture and width B ₂ solution (in Fig. 7 is shown by arrows). Dumps 13 in a normal section (Fig. 8) are made in the form of a vertically located segment of a hollow cylinder with an inner radius R and a height H (angle α ₄ ≥ 90 ^° ). In the lower part of the segment, a cutting part with a crushing angle α ₃ = 28 ... 32 ^° and a trailing angle ε ₃ = 18 ... 22 ^{° is} formed in its wall. The crest-forming surfaces of the plane cutters 9 of the cultivator-comb former 8 in a normal section (Fig. 5) are made in the form of a segment of a hollow parabolic cylinder deviated from the vertical by an angle of 5-15 ^o (angle α ₂ = 75 ... 85 ^° ). A cutting part is also formed in the wall of the lower part of the segment with a crushing angle α ₁ = 25 ... 29 ^° and a trailing angle ε ₁ = 8 ... 12 ^° .
A device for sowing works as follows.

The sowing sections of the device for sowing in a known manner are set to the required row spacing, and each sowing section is adjusted to a predetermined sowing depth of the introduction of the crawler opener 1 into the soil. When the sowing section moves, the opener 1 with its front pointed end “a” cuts the soil in front of itself and underneath it, forming a gap in the soil. The ripper-comb former 8, which moves as one unit with the coulter, with its symmetrically located plane cutters 9 angled to the coulter plane with comb-forming surfaces along the entire length, in particular the cutting part, cuts off the upper (mostly dry) soil layer and shifts it to the sides with the formation of soil on the sides crests. At the same time, the back wider part “b” of the opener 1 asymmetrically with respect to the longitudinal axis ll expands and compacts the gap in the soil with the formation of a compacted bed in the soil, where seeds are fed (laid) from the hopper 3 using the sowing apparatus 2. Further, in the lower part of the bed, the soil deformer 10, whose width a ₁ is greater than the maximum width a _{2 of the} opener, moves the moist soil from the sides of the bed and presses it together with the seeds into the bottom of the bed - the deformer cuts (and partially presses) from the sides of the bed the obviously moist soil and with its frontal plane “in” in the form of a logarithmic spiral, crushes the cut soil under itself and compacts it along with the seeds laid on the wet bottom. After that, an additional combing machine 12 captures the soil ridges located on the sides with its dumpers 13 and, due to the deviation of the plane cutters 9, shifts them to the longitudinal axis ll of the coulter 1, forming a single wider and shallower soil comb along the trail of the coulter with width B ₂ , where B _{2 is the} width of the solution between dumpers. Along with this, dumpers 13 cut with their cutting part the topsoil outside the solution B, where B is the width of the ripper-comb former 8; the cut soil along with the rest of the soil also moves into a solution of width B ₂ . The final stage of wide-row sowing is to roll up the soil ridge compaction using a compaction roller 5, the width B _{3 of} which is greater than the width B _{2 of the} mortar, and level the soil surface by means of a leveling device 7. The stability of the process of deformation and soil movement and seed placement is provided by the possibility of some change in the position of the sowing section relative to the frame 15 of the device for sowing due to the hinge-parallelogram structure with links 14 and rods 16 supporting the front sedges coulter 1; the possibility of creating a certain effort on the compacting roller 5 and overcoming obstacles by the roller due to spring-loaded leashes 4; the possibility of free movement on the soil surface of equalizers 7, fixed at the ends of rods 6; the presence of a parabolic surface on the crest-forming surfaces of plane cutters 9 and their deviation from the vertical; the presence of a surface in the form of a logarithmic spiral on the frontal plane "in" of the soil deformer 10, the width a _{1 of} which is greater than the largest width a _{2 of the} opener 1; the presence of a more oriented cylindrical surface on the dumps 13 and their specific installation due to the spring-loaded rods 11; the reliability of the capture and movement of the lateral soil ridges by an additional combing machine 12 due to the indicated inclination in terms of dumpers 13; the necessary excess of the width B ₁ capture additional combing 12 over the width B of the ripper-comb 8; the ability to change the width In ₁ capture and width In ₂ solution.

 As a result, the described method of sowing and a device for its implementation provide a more efficient seed placement in the soil, ensuring guaranteed contact of the seeds with moist soil, increasing the volume and density of the soil above the seeds, which creates favorable conditions for a longer preservation of moisture in the soil, seed germination, plant germination and, ultimately, increased yield. Along with this, a cultivating-combing cultivator and an additional comb-forming machine working together with a creeper-type opener carry out not only soil movement and combing, but also surface tillage and the destruction of early weeds (if any). The working width of the additional combing machine is selected so that surface tillage is carried out over the entire working width of the device for sowing in the presence of several sowing sections. The proposed method and device are among the resource-saving and soil-protective. Practical wide-row sowing (with a row spacing of 70 cm) and growing corn for grain confirmed this. The effectiveness of these methods and devices is undeniable in relation to other row crops, the row spacing of which is not less than 45 cm, for example buckwheat, millet, amaranth, etc.

 Thus, the above information indicates the fulfillment of the following conditions when using the invention: the method and means are intended for use in agriculture and agricultural machinery; for the invention confirmed the possibility of its implementation using the described in the application and known means and methods; the method and means embodying the invention in its implementation are capable of achieving the achievement of the technical result perceived by the applicant. Therefore, the invention meets the requirement of "industrial applicability" under applicable law.

Claims (7)

 1. The method of sowing, including tillage and wide-row sowing of seeds by forming a compacted bed in the soil, laying the seeds, covering the soil with the bed and compaction of the soil with rollers with simultaneous displacement of the upper soil layer and formation of soil ridges, characterized in that after the seeds are laid in the compacted bed is displaced from the sides of the bed of soil and pressed together with the seeds into the bottom of the bed, and the soil ridges are formed by shifting the upper layer of soil pushed to the sides on the bed with seeds, after which the ridges are compacted yayut rollers.  2. A sowing device containing a ripper-comb former in the form of plane cutters with comb-forming surfaces, a crawler opener with a metering device placed above it and a soil deformer located behind it, the width of which is greater than the largest coulter width, a sealing roller and an additional combifier made in the form of two symmetrically openers located at an angle to the longitudinal axis, deflected to the side opposite to the deviation angle of plane cutters, dumpers, the width of which is wider us capture ripper-grebneobrazovatelya, wherein otvalchiki installed at a distance from the longitudinal coulter axis, forming a solution of a width less than the width of the sealing roller, characterized in that the additional grebneobrazovatel located between the ground warp and the sealing roller, a deformer soil formed as a sealing plate.  3. The device according to claim 2, characterized in that the frontal plane of the soil deformer is made in a logarithmic spiral.  4. The device according to PP.2 and 3, characterized in that the width of the soil deformer is 1.05 1.15 times the largest width of the coulter.  5. The device according to claim 2, characterized in that the dumpers of the additional combing machine are installed with the possibility of measuring the working width and the width of the mortar.  6. The device according to claim 2, characterized in that the dumpers of the additional combing machine in normal section are made in the form of a vertically located segment of a hollow cylinder. 7. The device according to claim 2, characterized in that the comb-forming surfaces of the ripper-comb-former are located along the entire length of the plane cutters and in a normal section are made in the form of a segment of a hollow parabolic cylinder, deviated from the vertical by an angle of 5 15 ^o .

Images