RU2762406C1 - Tillage tool - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: invention relates to the field of agricultural engineering. The tillage tool contains a frame (1), on which cultivator plowshares (2), right- and left-hand turning plow bodies (4 and 3), trenchers (5), furrow former (10) are sequentially installed. The implement is equipped sequentially and symmetrically at different levels with two extreme left and right turning and two middle left and right turning plow bodies (6 and 7), right and left equalizers (9 and 8). The extreme left- and right-hand turning plow bodies are equipped with furrowers (5).

EFFECT: improvement of the quality and reduction of energy consumption of soil cultivation for sowing crops is ensured.

3 cl, 6 dwg

Description

The invention relates to agricultural engineering, in particular to tillage machines for preparing the soil for strip sowing of crops cultivated with irrigation along the furrows.

Known combined tool for soil cultivation and sowing, containing a frame, right and left-turning plow bodies, a plug, soil deepeners, cultivators, furrow formers, loosening-leveling roller and seeding devices (see patent UZ IAP 03618, bull. No. 4, 2008).

The disadvantage of the known tool is its high energy consumption and low quality of work.

The closest in technical essence and the achieved result to the proposed invention is a combined tool for soil cultivation and sowing, containing a frame, right and left-turning plow bodies, double-moldboard skimmers, a plug, soil diggers, rippers, a loosening-leveling roller, a furrow former and sowing devices (see. patent UZ IAP 00657, bull. No. 11,2011).

The disadvantage of the known tool 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 the known solutions showed that the technical problem in this area is the need to expand the arsenal of tools to improve the quality and reduce the energy intensity of the soil preparation process.

The technical result of the invention is to improve the quality and reduce the energy consumption of soil cultivation for sowing crops.

To solve this problem and obtain the claimed technical result, the tillage implement is equipped sequentially and symmetrically at different levels with two extreme left and right-turning and two middle left and right-turning plow bodies, right and left levelers for displacing the soil, and the extreme left and right-hand turning bodies are equipped with soil deepeners ... The outer plow bodies are installed to the depth of the main tillage, and the middle plow bodies, to a depth of up to half the depth of the main tillage. In this case, each leveler is displaced in the transverse-vertical plane relative to the share tip of the corresponding extreme body by the amount of its grip width and is installed behind the middle bodies at an angle of attack to the direction of movement of the unit. At the same time, the middle hulls are arranged in a lister pattern along the axis of symmetry of the gun.

The total grip width of the implement is 1.4 m, i.e. corresponds to the width of the strip sowing zone. The depth of cultivation of the outer bodies is equal to the depth of the main cultivation of the soil, i.e. a = 22-24 cm, and the working depth of the middle bodies is a ₁ = 8-12 cm. The levelers are set at half the working depth of the outer bodies, i.e. and _c = 11-12 cm.

At different levels of soil cultivation, the energy intensity of the process decreases and a stepped bottom of the furrow is formed, as a result of which irrigation water flows down and accumulates in the zone of root development of the crop system.

The proposed tillage tool is illustrated by drawings.

FIG. 1 - shows a tillage tool, top view.

FIG. 2 - shows a tillage tool, side view.

FIG. 3 - shows the profile of the cross-section of the field after surface loosening of the extreme strips outside the sowing zone.

FIG. 4 - shows the profile of the cross-section of the field after turning the layers of the extreme parts of the sowing zone with the first pair of plow bodies and subsoil loosening.

FIG. 5 - shows the 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. 6 shows the cross-sectional profile of the field after the formation of the irrigation furrow.

The tillage tool contains a frame 1, on which cultivator paws 2 are sequentially installed, extreme left and right-turning bodies 3 and 4 with soil deepeners 5, middle left and right-turning bodies 6 and 7, left and right levelers 8 and 9 and a furrow former 10.

The tool works as follows.

To loosen the soil of the side strips "A" and "B" outside the sowing zone, we use cultivator paws 2. In the strip sowing zone itself, four equal parts in width "B", "D", "D" and "E" are distinguished. In the two extreme of them "B" and "E", they carry out the main processing of the soil with the first pair of plow bodies 3 and 4, due to moldboard plowing to a depth of 22-24 cm. In this case, the soil layers are cut, lifted, wrapped and mixed in different directions from the longitudinal axis of symmetry of the aggregate to the previously loosened strips "A" and "B". Simultaneously with the turnover of the seams, strip subsurface loosening of the bottom of the furrows of the cultivated strips "B" and "E" with the help of soil deepeners is carried out. -12 cm. Soil layers move in different directions from the longitudinal axis of symmetry of the tool, with their placement in open furrows formed from the work of the first pair of plow bodies 3 and 4 in the extreme parts of the seeding zone "B" and "E". In this case, a deep incorporation of plant residues occurs. 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 3 and 4, back to the extreme parts of the sowing zone "B" and "E" when waving left and right levelers 8 and 9, set at an angle of attack to the direction of movement of the unit. In this case, the soil is placed in the extreme parts of the sowing zone "B ₁ " and "E ₁ ", on top of the previously displaced layers by the second pair of plow bodies 6 and 7 from the middle parts of the sowing zone "D" and "D". In place of the middle parts of the sowing zone "D" and "D" with the help of furrow former 10, an irrigation furrow "F" is formed.

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

Conclusions. The use of this tillage tool provides a decrease in the energy intensity of the process and an improvement in the quality of soil preparation for sowing cultivated crops.

Claims (3)

1. A soil-cultivating tool containing a frame on which cultivator shares are sequentially installed, right- and left-turning plow bodies, furrowers, furrow-formers, characterized in that the tool is equipped sequentially and symmetrically at different levels with two extreme left- and right-turning and two middle left- and right-turning plow bodies, right-hand and left-hand equalizers, and the extreme left-hand and right-hand turning plow bodies are equipped with soil diggers. 2. The tillage implement according to claim 1, characterized in that the processing depth of the outermost plow bodies is greater than the middle ones, and each leveler is displaced in the transverse-vertical plane relative to the share tip of the corresponding outermost body by the amount of its working width and is installed behind the middle bodies at an angle attacks to the direction of movement of the unit. 3. The tillage tool according to claim 1, characterized in that the middle plow bodies are located along the axis of symmetry of the tool according to the lister scheme.

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