RU2762405C1 - Tillage method - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method for tillage with a tillage tool relates to the field of agriculture and can be used in preparing the soil for strip sowing of crops cultivated with irrigation along furrows. The tillage method is carried out by a tillage tool, the working bodies of which are installed in such a way that when cultivating the soil, four equal parts are formed along the width of the sowing zone. When the tillage tool is moving, the lateral strips are initially loosened outside the sowing zone. In the sowing zone, the first pair of plow bodies carry out the main tillage of the two extreme parts, wrapping the layers in different directions from the longitudinal axis of symmetry of the implement, on previously loosened strips, simultaneously with the rotation of the layers, strip-tillage loosening of the bottom of the treated strips is performed. The soil layers of the middle parts of the sowing zone are treated with a second pair of plow bodies, subjecting them to minimal processing and moving them in different directions from the longitudinal axis of symmetry of the tool into open furrows formed in the extreme parts of the sowing zone, with simultaneous fertilization. After that, part of the soil is shifted from the side strips outside the sowing zone, back to the extreme parts of the sowing zone, and in place of the middle parts of the sowing zone, an irrigation furrow is formed. At the same time, the extreme parts of the sowing zone are rolled.

EFFECT: use of the invention makes it possible to improve the quality of soil preparation for sowing cucurbits.

1 cl, 5 dwg

Description

The invention relates to the field of agriculture and can be used in the preparation of soil for strip sowing of crops cultivated with irrigation along the furrows.

A known method of soil cultivation, including surface loosening on the right and left sides of the wrapped layers, the rotation of the layers in different directions from the longitudinal axis of symmetry of the unit, deep strip loosening of the sowing zone, fertilization, soil preparation for sowing, the formation of irrigation furrows and sowing (patent UZIAP 05360, 2017, Bul., No. 4).

The disadvantage of this method is the low quality of soil preparation for sowing, since deep strip loosening of the soil does not provide sufficient quality of work in the zone of plant development. This has the greatest effect when cultivating the soil for sowing crops of the second harvest. In the summer after the first harvest, in conditions of insufficient moisture supply, the soil has a moisture content of 5-8%. As a result, after using such an implement with moldless deep-ripeners, lumps are formed, which leads to a decrease in the quality of soil cultivation.

The closest in technical essence and the achieved result to the proposed invention is a method of soil cultivation and sowing, including the formation of irrigation furrows by loosening the soil, dividing and turning layers in different directions with a shift in their center of gravity towards the turnover, fertilizing and sowing, shallow surface loosening on the right and left sides of the turned seams, strip subsurface loosening (patent UZ IAP 04004, 2009, Bul., No. 9).

The disadvantage of this method is its high energy consumption and low quality. When processing the soil in a known way, the layers are turned over mainly within their own furrow. At the same time, the maximum width of capture of one body is 0.525 cm, and of two bodies is 1.05 m, which does not provide full cultivation of the sowing zone. Since with the width of the formed furrow up to 90 cm, the width of the sowing zone should be in the range of 1.2-1.4 m. In addition, the turnover of layers within its own furrow is an energy-intensive process. In the course of the turnover, the soil layers move along the side faces along the bottom and walls of the furrow, as a result, friction forces arise, to overcome which energy is expended. In this case, an incomplete turnover of the layers is carried out. Due to insufficient turnover of layers, plant residues in the sowing zone are poorly sealed.

The analysis of known solutions showed that a technical problem in this area is the need to expand the arsenal of tools to improve the quality of soil preparation for sowing melons and gourds and reduce the energy intensity of the soil preparation process.

The technical result of the invention is to improve the quality of soil preparation for sowing melons and gourds.

To solve this problem and obtain the claimed technical result in the method of soil cultivation with a tillage tool, the working bodies are installed in such a way that when cultivating the soil, they form four equal parts along the width of the sowing zone, and when the tillage tool moves, the side strips are initially loosened outside the sowing zone. In the sowing zone, the first pair of plow bodies carry out the main cultivation of the soil of the two extreme parts, wrapping the layers in different directions from the longitudinal axis of symmetry of the tool, onto previously loosened strips, simultaneously with the rotation of the layers, strip subsurface loosening of the bottom of the cultivated strips is performed. The soil layers of the middle parts of the sowing zone are cultivated with a second pair of plow bodies, subjecting them to minimal processing, and moving them in different directions from the longitudinal axis of symmetry of the implement into open furrows formed in the outer parts of the sowing zone, with simultaneous application of fertilizers. After that, part of the soil is displaced from the side strips outside the sowing zone, back to the extreme parts of the sowing zone, and in place of the middle parts of the sowing zone, an irrigation furrow is formed, while the extreme parts of the sowing zone are rolled. When combining deep and minimal tillage in different parts of the sowing zone, the energy intensity of the technological operations performed decreases. When an irrigation furrow is formed, a stepped bottom is formed in place of the middle parts of the sowing zone, which contributes to the drainage and accumulation of irrigation water in the zone of development of the root system of plants.

The proposed method of tillage is illustrated by drawings.

FIG. 1 - shows the profile of the cross-section of the field after surface loosening of the extreme strips outside the sowing zone.

FIG. 2 - profile of the cross-section of the field after the turnover of the seams of the extreme parts of the sowing zone by the first pair of plow bodies and subsoil loosening.

FIG. 3 - cross-sectional profile of the field after fertilization.

FIG. 4 - profile of the cross-section of the field after the displacement of a part of the soil from the side strips outside the sowing zone, back to the extreme parts of the sowing zone.

FIG. 5 - cross-sectional profile of the field after the formation of the irrigation furrow.

An example of the implementation of the method.

To loosen the soil of the side strips "A" and "B" outside the sowing zone (Fig. 1), we use cultivator paws. In the strip sowing zone itself, four equal parts in width "B", "G", "D" and "E" are distinguished. In the two outermost of them, "B" and "E", carry out the main cultivation of the soil with the first pair of plow bodies, due to moldboard plowing to a depth of 22-24 cm (Fig. 2). In this case, the soil layers are cut, lifted, wrapped and mixed in different directions from the longitudinal axis of symmetry of the aggregate into the previously loosened strips "A" and "B". Simultaneously with the turnover of the seams, a strip subsurface loosening of the bottom of the cultivated strips "B" and "E" is carried out with the help of soil deepeners. Then in the middle parts of the sowing zone "D" and "D" carry out the minimum processing (Fig. 3). In this case, the soil moves in different directions from the longitudinal axis of symmetry of the tool, with its placement in open furrows formed from the work of the first pair of plow bodies in the extreme parts of the seeding zone "B" and "E". In this case, a deep incorporation of plant residues occurs. Fertilization is also carried out there using fertilizer coulters. After that, part of the soil "B ₁ " and "E ₁ " is displaced from the side strips outside the sowing zone "A" and "B", from the previously performed plowing with the first pair of plow bodies, back to the extreme parts of the sowing zone (Fig. 4). In this case, the soil is placed in parts of the sowing zone "B ₁ " and "E ₁ ", on top of the previously displaced soil with minimal processing from the middle parts of the sowing zone "D" and "D". In place of the middle parts of the sowing zone "D" and "D" form an irrigation furrow "F" (Fig. 5). In the extreme parts of the sowing zone "B ₁ ", "G" and "E ₁ ", "D" rolling is performed.

Similarly, strip tillage is carried out for sowing throughout the field.

The proposed method of tillage is carried out in one pass of a combined unit consisting of rippers, right- and left-hand turning bodies with soil deepeners, fertilizer coulters, rollers and furrow formers.

Conclusions. The use of this method of soil cultivation provides a decrease in the energy intensity of the process and high-quality soil preparation for sowing cultivated crops.

Claims (1)

A method of soil cultivation using a tillage tool, which carries out shallow surface loosening, pruning and rotation of the seams of the sowing zone, strip subsurface loosening, fertilization, the formation of irrigation furrows, characterized in that the working bodies of the tillage tool are set in such a way that, when cultivating the soil, they form a the width of the sowing zone, four equal parts and when the tillage implement moves, they initially loosen the side strips outside the sowing zone, and in the sowing zone with the first pair of plow bodies, they carry out the main soil cultivation of the two extreme parts, wrapping the layers in different directions from the longitudinal axis of symmetry of the tool, on earlier the loosened strips, simultaneously with the turnover of the seams, perform strip subsurface loosening of the bottom of the cultivated strips, and the soil layers of the middle parts of the sowing zone are treated with a second pair of plow bodies, subjecting them to minimal processing and moving them in different directions from the continuation the new axis of symmetry of the implement into the open furrows formed in the extreme parts of the sowing zone, with the simultaneous application of fertilizers, after which part of the soil is shifted from the side strips outside the sowing zone back to the extreme parts of the sowing zone, and in place of the middle parts of the sowing zone, an irrigation furrow is formed, when In this case, the extreme parts of the sowing zone are rolled.

Images