RU2788443C1 - Tillage implement - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: invention relates to the field of agricultural engineering. The soil-cultivating implement contains a frame (1), on which two extreme left- and right-turning (5 and 6) and two middle left- and right-turning (2 and 3) plow bodies are installed, located along the axis of symmetry of the tool according to the lister scheme, a soil deepener, a furrow former (9). The implement is additionally equipped with a ripper (4) mounted on the frame (1) along the axis of symmetry behind the middle left and right turning plow bodies (2 and 3), which are installed in front of the outermost plow bodies at the same level. The capture width of the outer plow bodies is 10-12 cm greater than the capture width of the middle ones. The subsoiler, installed along the axis of symmetry of the tool behind the extreme plow bodies, is made in the form of two differently directed flat curved posts (7 and 8).

EFFECT: improved quality and reduced energy intensity of tillage for sowing crops.

1 cl, 8 dwg

Description

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

A combined tool for tillage and sowing is known (patent UZ IAP 00657, bull. No. 11, 2011), containing a frame, right and left-handed plow bodies, double-dump skimmers, a plow, ploughs, rippers, a ripping and leveling roller, a furrow former and sowing machines.

A disadvantage of the known tool is the high energy consumption caused by the turnover of soil layers, mainly within its own furrow, and the poor quality of plant residues incorporation in the sowing zone due to insufficiently complete turnover of the layers.

The closest in technical essence and the achieved result to the proposed invention is a tillage tool (patent RU 2762406 C1, bull. No. 36, 2021), containing a frame on which cultivator paws are installed sequentially and symmetrically at different levels, two extreme left- and right-turning and two middle left- and right-hand turning plow bodies located along the axis of symmetry of the tool according to the lister scheme, right and left levelers, soil deepeners installed on the extreme left and right turning plow bodies, a furrow former.

The disadvantage of the known soil-cultivating tool is the high energy intensity of the work, due to the cultivation of the soil with plow bodies to a depth of 22-26 cm in a closed furrow, i.e. under blocked cutting conditions. In addition, due to the incomplete laying of the soil layers of the middle parts in the open furrows formed by the extreme plow bodies, the incorporation of plant residues worsens, which leads to a decrease in the quality of field preparation for sowing.

An analysis of known solutions has shown 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 intensity of tillage for sowing crops.

To solve this problem and obtain the claimed technical result, a tillage tool containing a frame on which two extreme left- and right-turning and two middle left- and right-turning plow bodies are installed, located along the axis of symmetry of the tool according to the lister scheme, a tiller, and a furrow former, additionally equipped with a ripper mounted on the frame along the axis of symmetry behind the middle left- and right-turning plow bodies, which are installed in front of the outermost plow bodies at the same level, while the width of the outer plow bodies is 10-12 cm higher than the width of the middle ones, and the subsoiler installed along axis of symmetry of the tool behind the extreme plow bodies, is made in the form of two differently directed flat curved racks.

The total width of the tool grip is 1.4 m, i.e. corresponds to the width of the strip sowing zone. The depth of tillage by the middle and outer bodies is equal to a ₁ = a ₂ = 8-12 cm, resulting in a reduction in the energy intensity of the working process. The working depth of the cultivator a ₃ is 12-14 cm greater than the working depth of the plow bodies. Due to the smaller width of the medium bodies, the middle of the cultivated strip is qualitatively cleared of stubble and plant residues, while creating a favorable condition for high-quality crumbling of the soil with a ripper and the formation of ridges from a loosened fine-cloddy soil layer.

The proposed tillage tool is illustrated by drawings.

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

In FIG. 2 - shows a tillage tool, rear view.

In FIG. 3 - shows a tillage tool, side view.

In FIG. 4 shows the cross-sectional profile of the field in the sowing zone.

In FIG. 5 shows the cross-sectional profile of the field after turning the layers of the middle parts of the sowing zone to the extreme parts with the first pair of plow bodies and loosening the bottom of the formed furrow.

In FIG. 6 - shows the cross-sectional profile of the field after turning the layers of the extreme parts of the sowing zone with the second pair of plow bodies.

In FIG. 7 - shows the cross-sectional profile of the field after deep loosening of the soil along the sowing lines.

In FIG. 8 - shows the profile of the cross section of the field after the formation of an irrigation furrow.

The soil-cultivating tool contains a frame 1, on which middle left- and right-turning bodies 2 and 3, a ripper 4, extreme left- and right-turning bodies 5 and 6, a soil deepener in the form of two differently directed flat curved racks 7 and 8, a furrow former 9 are successively installed.

The tool works as follows.

In the strip sowing zone itself, four parts are distinguished: the middle parts "B" and "C" with a width of b ₁ and the extreme parts "A" and "D" with a width of b ₂ . In this case, b ₂ >b ₁ .

During the operation of the tool, the soil layers of the middle part "B" and "C" are cut at a depth of a ₁ \u003d 8-12 cm, rise and turn around on the extreme parts of the strip "A" and "D" with the first pair of plow bodies 2 and 3. Simultaneously with the turnover layers, with the help of a ripper 4, the bottom of the resulting furrow “E” is loosened to a depth of 12-14 cm. a pair of plow bodies 5 and 6 to a depth equal to the depth of the first pair of bodies. At the same time, plant residues located in the gripping area of the plow bodies are completely removed from the sowing area. With the further movement of the tool, the resulting furrow is processed by a soil plough, consisting of two multidirectional flat curved racks 7 and 8, which provides strip deep loosening along the sowing lines of seeds "I" and "K". Subsequently, with the help of furrow former 9, an irrigation furrow “L” is formed in the place of the middle part of the sowing zone.

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

Findings. The use of this tillage tool provides a reduction in the energy intensity of the process and an increase in the quality of soil preparation for sowing cultivated crops.

Claims (1)

A soil-cultivating implement, comprising a frame on which two extreme left- and right-turning and two middle left- and right-turning plow bodies are installed, located along the axis of symmetry of the tool according to the lister scheme, a soil deepener, a furrow former, characterized in that the tool is additionally equipped with a ripper mounted on the frame along the axis of symmetry behind the middle left- and right-turning plow bodies, which are installed in front of the outermost plow bodies at the same level, while the width of the grip of the outer plow bodies is 10-12 cm higher than the width of the middle ones, and the soil deepener installed along the axis of symmetry of the implement behind the outermost plow bodies housings, made in the form of two multidirectional flat curved racks.

Images