RU2788846C1 - Method for tillage for sowing melons - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture. The method consists in using a soil-cultivating tool, by means of which the cutting and turning of the layers of the sowing zone, strip subarable loosening, forming four parts along the width of the sowing zone, and the formation of irrigation furrows are carried out. The working bodies of the soil-cultivating tool are installed in such a way that during its movement, the soil of the middle parts of the sowing zone is initially cultivated with the first pair of plow bodies, wrapping the layers with plant residues in different directions from the longitudinal axis of symmetry of the tool and laying them on the extreme parts of the sowing zone, simultaneously with the turnover layers produce loosening of the bottom of the resulting furrow. The width of the extreme parts of the sowing zone is 10-12 cm higher than the width of the middle parts of the sowing zone. Then the soil layers of the extreme parts of the sowing zone with the laid soil layers of the middle part are treated with the extreme right- and left-turning bodies, wrapping and laying them in different directions outside the sowing zone. Further, deep strip loosening is carried out along the sowing line and an irrigation furrow is formed by moving the loosened soil layer in different directions from the longitudinal axis of symmetry of the tool.

EFFECT: reduction of energy intensity and improvement of the quality of soil preparation for sowing melons and gourds.

1 cl, 5 dwg

Description

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

There is a method of tillage (patent UZ IAP 05360, 2017, Bull. No. 4), including surface loosening of the soil on the right and left sides of the layers being turned, 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, formation of irrigation furrows and sowing.

The disadvantage of the known method is the low quality of soil preparation for sowing, since when the layers of the sowing zone are turned in different directions from the longitudinal axis of symmetry of the aggregate, stubble and plant residues are not completely removed from the sowing zone. In addition, during the formation of an irrigation furrow from the soil of the subsurface layer in the middle of the sowing zone, i.e. from under the reversible layers, due to insufficient moisture, a finely cloddy layer of soil does not form on the ridges. In summer, after harvesting the first crop, in conditions of insufficient moisture supply, the soil has a moisture content of 5-8%.

The closest in technical essence and the achieved result to the proposed invention is a method of tillage (RU 2762405 C1, bull. No. 36, 2021) using a tillage tool, which is used to form four equal parts across the width of the sowing zone, loosening the side strips outside the sowing zone , and in the sowing zone, the first pair of plow bodies 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 the previously loosened strips, simultaneously with the rotation of the layers, strip subsoil loosening of the bottom of the cultivated strips is carried out, and the soil layers of the middle parts sowing zones 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 application of fertilizers, after which 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.

The disadvantage of the known method is the high energy intensity, since the main tillage of the two extreme parts to a depth of 22-26 cm is carried out in a closed furrow, i.e. under blocked cutting conditions. In addition, due to the equality of the width of the middle and outer parts of the sowing zone and the presence of plant residues, the soil layers of the middle parts of the sowing zone do not completely fit into the open furrows formed in the outer parts of the zone. When turning, they can move in the transverse direction outside the open furrow, and when a part of the soil is shifted from the side strips outside the sowing zone back to the extreme parts of the sowing zone, plant residues can also move back to the formed ridges. All this leads to a decrease in the quality of field preparation for sowing.

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

To solve this problem and obtain the claimed technical result in the method of tillage for sowing melons and gourds using a tillage tool, through which the cutting and turnover of the layers of the sowing zone are carried out, strip subsoil loosening, while forming four parts along the width of the sowing zone, the formation of irrigation furrows, in which the working bodies of the soil-cultivating tool are installed in such a way that during its movement, the soil of the middle parts of the sowing zone is initially cultivated with the first pair of plow bodies, wrapping the layers with plant residues in different directions from the longitudinal axis of symmetry of the tool and laying them on the extreme parts of the sowing zone, at the same time with the turnover of the layers, the bottom of the resulting furrow is loosened, while the width of the extreme parts of the sowing zone is 10-12 cm greater than the width of the middle parts of the sowing zone, then the soil layers of the extreme parts of the sowing zone with the laid soil layers of the middle part, process the edge them with right- and left-turning hulls, wrapping and laying them in different directions outside the sowing zone, after which deep strip loosening is carried out along the sowing line and an irrigation furrow is formed, moving the loosened soil layer in different directions from the longitudinal axis of symmetry of the implement, while forming ridges from finely cloddy soil layer.

The proposed method of tillage is illustrated by drawings.

In FIG. 1 shows the cross-sectional profile of the field after dividing the sowing area into four parts.

In FIG. 2 - cross-sectional profile of the field after turning the layers of the middle parts of the sowing zone to the extreme parts of the first pair of bodies and loosening the bottom of the turned layers with a ripper.

In FIG. 3 - cross-sectional profile of the field after turning the layers of the extreme parts of the sowing zone by the extreme plow bodies with soil layers in the middle part.

In FIG. 4 - cross-sectional profile of the field after strip subsurface loosening along the line of sowing seeds.

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

An example of the implementation of the method.

In the strip sowing zone itself, four parts "A", "B", "C" and "D" are distinguished (Fig. 1). In the two middle ones "B" and "C" with a width of b ₁ , the soil is tilled with a lister plow body to a depth of a ₁ =8-12 cm (Fig. 2). At the same time, soil layers "B" and "C" with plant residues are cut, lifted and wrapped in different directions from the longitudinal axis of symmetry of the aggregate, laying on the extreme strips "A" and "D". Simultaneously with the turnover of the layers, the bottom of the cultivated strips is loosened in the "E" zone with the help of a cultivator paw to a depth of a ₃ \u003d 12-14 cm.

Then, in the extreme parts "A" and "D" of the sowing zone, the soil is cultivated with extreme right- and left-hand plow bodies to a depth of a ₂ =a ₁ with a width of b ₂ (Fig. 3). In this case, the layers "A" and "D" are displaced, with previously displaced layers located on top of it from the middle parts of the sowing zone beyond its limits. After that, deep strip loosening of the soil is carried out along the sowing lines "I" and "K" (Fig. 4) and an irrigation furrow "L" is formed in place of the middle parts of the sowing zone "B" and "C" (Fig. 5), moving to side of the loosened layer of soil from the bottom of the furrow "E" in the middle part of the sowing zone.

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

The proposed method of tillage for sowing melons and gourds is carried out in one pass of a tillage tool, consisting of a lister body with a ripper, right- and left-hand turning bodies, deep-ripper in the form of two differently directed flat curved racks and a furrow former.

Findings. The use of this method of tillage provides a reduction in the energy intensity of the process and high-quality soil preparation for sowing cultivated crops.

Claims (1)

A method of tillage for sowing melons and gourds using a tillage tool, by means of which the cutting and turnover of the layers of the sowing zone are carried out, strip subarable loosening, while forming four parts across the width of the sowing zone, the formation of irrigation furrows, characterized in that the working bodies of the tillage tool are set in such a way in such a way that during its movement, the soil of the middle parts of the sowing zone is initially cultivated with the first pair of plow bodies, wrapping the layers with plant residues in different directions from the longitudinal axis of symmetry of the tool and laying them on the extreme parts of the sowing zone, simultaneously with the turnover of the layers, the bottom of the resulting furrow is loosened , while the width of the extreme parts of the sowing zone is 10-12 cm greater than the width of the middle parts of the sowing zone, then the soil layers of the extreme parts of the sowing zone with the laid soil layers of the middle part are treated with the extreme right- and left-turning bodies, wrapping and laying them in different directions outside the sowing zone, after which deep strip loosening is carried out along the sowing line and an irrigation furrow is formed by moving the loosened soil layer in different directions from the longitudinal axis of symmetry of the tool.

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