RU2719127C1 - Method of soil treatment for melon crops growing under film - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Method includes rotation of beds, loosening of soil, leveling, compaction and formation of irrigation furrows. Soil treatment zone is divided into three equal strips; at that, the middle strip is loosened to the depth of irrigation furrow formation. Soil strata of outermost strips are plowed with 180° rotation, laying them on bottom of own furrows without transverse displacement. Surface treatment of the plowed strips is performed, after that, along the outer edges of the treated strip, furrows are opened for further installation of the film frames. Then, an irrigation groove is formed in the middle of the treated zone, which provides formation of ridges on extreme strips. On formed crests soil is leveled with partial compaction, forming strips for subsequent sowing melons and gourds.

EFFECT: method makes it possible to improve quality of soil preparation for sowing of cucurbits under a film in tunnel shelters and to reduce energy intensity of soil treatment.

1 cl, 5 dwg, 1 ex

Description

The invention relates to the field of agriculture and can be used in the cultivation of gourds under the film in tunnel shelters.

A known method of tillage, including tiered cutting and processing of beds of crest and furrow parts of the row spacing, arable tillage at different depths in the direction of the longitudinal axis of the furrow of each row spacing and leveling the surface of the soil (Auth. Certificate. SU No. 1821067. Bull. No. 22. 1983).

The disadvantage of this method is that it does not prepare the soil for sowing melons. For sowing melons and gourds, it is necessary to carry out additional operations to loosen the soil surface and the formation of irrigation furrows, which reduces labor productivity, increases the time of soil preparation and labor costs. One of the main disadvantages of this method is its high energy intensity.

The closest in technical essence and the achieved result to the proposed invention is a method that includes the rotation of the formations with the shift of their center of gravity towards the turn, tillage loosening, loosening and compaction of the soil, the formation of irrigation furrows and sowing (Patent UZ No. IAP 04004, class A01B 79 / 00, bull. No. 4, 2009).

The disadvantages of this method is the high energy intensity and low quality soil preparation. This method does not prepare the soil for sowing gourds under the film in tunnel shelters, which is relevant for early sowing of such crops.

An analysis of the known technical solutions showed that the technical problem in this area is the need to expand the arsenal of technical means used for tillage for sowing melons under the film in tunnel shelters.

The technical result of the invention is to improve the quality of soil preparation for sowing gourds under the film in tunnel shelters and to reduce the energy consumption of tillage.

To solve this problem and obtain the claimed technical result in the method of cultivating the soil for sowing melons under the film in tunnel shelters, it is proposed to divide the band processed by the tool into three equal strips. All three bands are processed simultaneously. The soil of the middle strip is loosened to the depth of the irrigation furrow, and the extreme soil strips are plowed with 180 ° wrapping of the seams, laying them on the bottom of their own furrows without lateral displacement. The upper layer of the extreme layers is loosened due to surface tillage. Then, grooves are opened along the outer edges of the plowed strips, turning the soil to the right and left of the cultivated soil zone, respectively. These grooves in the future will be necessary for laying a film tunnel. Within the middle strip, an irrigation furrow is formed, due to this, ridges are formed in the extreme bands of the treated zone. The surface of the ridges in the extreme bands of the cultivated zone is subject to leveling of the soil with compaction to form seed strips.

Due to the rotation of the soil layers of the extreme bands by 180 ° with their laying on the bottom of their own furrows without lateral displacement, a deep embedment of plant residues and a good tillage of the melon sowing zone are achieved. Combining the turnover of strata with subsurface loosening helps to reduce energy consumption for tillage.

Due to the loosening of the lower soil layers of the middle strip to a depth equal to the depth of the furrows during irrigation, water flows into the melon sowing zone, i.e. in the zone of turnover of the layers, which contributes to the accumulation of moisture under the melon crops.

When grooves are formed along the edges of the treated strip by turning the soil to the right and left, respectively, on the surface of the untreated field, a favorable condition is created for installing the tunnel shelter frame.

When leveling and compacting the soil of the aisle ridges with the simultaneous formation of an irrigation furrow, a high-quality soil preparation is achieved for sowing melons under the film in tunnel shelters.

The proposed method of tillage is illustrated by drawings.

In FIG. 1 shows the profile of the cross section of the field after loosening the middle strip.

In FIG. 2 - profile of the cross section of the field after loosening the middle strip and the turnover of the layers of the extreme bands.

In FIG. 3 is a profile of the cross section of the field after loosening the middle strip, turnover of the layers and surface treatment of the extreme strips, and the formation of grooves along the outer edges of the treated strip.

In FIG. 4 - profile of the cross section of the field after the formation of the irrigation furrow.

In FIG. 5 - profile of the cross section of the field after leveling and compaction of the soil on the ridges. An example of the method.

путем вертикального разреза в точках В, С, К и Л, после чего среднюю полосу разрыхляют на глубину формирования поливной борозды

а почвенные пласты АВСД и ИКЛМ с шириной

и толщиной а крайних полос оборачивают на 180°, укладывая их на дно собственных борозд без поперечного смещения. Верхний слой пластов С₁Д₁А₁В₁ и Л₁М₁И₁К₁ разрыхляют, после чего по наружным краям обработанной полосы

открывают бороздки оборачивая почву соответственно вправо и влево на поверхности поля обрабатываемой зоны. Формируют поливную борозду с шириной

и глубиной Н по середине обработанной зоны. Выравнивают и частично уплотняют почву на гребнях образованных на крайних полосах при формировании поливной борозды.Initially, the soil treatment area is divided into three equal strips with a width of

by vertical section at points B, C, K and L, after which the middle strip is loosened to the depth of formation of the irrigation furrow

and the soil layers AVSD and IKLM with a width

and a thickness of the extreme bands is wrapped 180 °, laying them on the bottom of their own furrows without lateral displacement. The upper layer of formations C ₁ D ₁ A ₁ B ₁ and L ₁ M ₁ AND ₁ K _{1 is} loosened, and then along the outer edges of the treated strip

open grooves, turning the soil, respectively, to the right and left on the surface of the field of the treated zone. Form irrigation furrow with a width

and depth H in the middle of the treated area. The soil is leveled and partially compacted on the ridges formed in the extreme bands during irrigation furrow formation.

Similarly, the soil is cultivated in other areas of the sown area.

Conclusions. The proposed technology allows to improve the quality of soil preparation for the cultivation of gourds with early sowing under the film in tunnel shelters and reduce energy costs when processing the soil.

Claims (1)

A method of processing the soil for growing gourds under the film, including the rotation of the layers, loosening the soil, leveling and compaction, the formation of irrigation furrows, characterized in that the soil treatment area is divided into three equal strips, while the middle strip is loosened to the depth of formation of the irrigation furrow, and the soil layers of the extreme strips are plowed with a rotation of 180 °, laying them on the bottom of their own furrows without lateral displacement, surface treatment of the plowed strips is carried out, and then on the outer edges of the treated the strips open the grooves for further installation of the film frames, then form an irrigation furrow in the middle of the treated zone, which ensures the formation of ridges on the extreme strips, on the formed ridges, the soil is leveled with partial compaction, forming strips for the subsequent sowing of melons.

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