RU2612211C1 - Tool for conservation tillage - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the agricultural machinery industry. The tool for conservation tillage includes a frame with two support wheels on which loosening-clipping feet for continuous shallow tillage are fixed. On the tool frame before the clipping feet, unilateral flat-cutting working bodies with mouldboard surfaces are mounted on the vertical axis at an angle to the tool longitudinal axis. The working bodies have the ability to rotate in the horizontal plane. The upper layer of the soil with stubble is trimmed in strips and the cropped soil and stubble mass is moved in order to create anti-erosion links constantly uphill, in strips of the stubble left on the field surface.

EFFECT: invention provides the fertile topsoil thickness alignment on the treated surface of sloping lands and improving their erosion sustainability.

2 dwg

Description

The invention relates to agricultural machinery, in particular to tools for anti-erosion tillage.

Known reversible plow for smooth dump tillage without the formation of pile ridges and breakaway furrows [Agricultural machinery for intensive technologies in crop production. Catalog. M .: AgroNIIETIIITO, 1988. - 288 p.]. The plow consists of a frame, right- and left-handed bodies, a linkage, support wheels with adjustment mechanisms and a frame rotation mechanism. It is intended for processing soils that are not clogged with stones to a depth of 18 to 30 cm. Plow plowing is carried out by shuttle method without breaking into bends, this is achieved by the fact that at the ends of the bends, when turning the unit, the plow frame is rotated by 180 ° and plowing is done right - and left-turning hulls, so the displacement of the arable layer of the soil is carried out constantly in one direction.

The disadvantages of this well-known plow are that the main tillage is done with right- and left-handed bodies to a depth of at least 18 cm. As a result, when the plow is working, a soil layer moves up the slope, the thickness of which is equal to the depth of the soil cultivation, i.e. is 18 cm. Therefore, these plows cannot be used on washed-out soils, the thickness of the upper fertile soil layer on which is less than 18 cm. Using reverse plows on such fields leads to the removal of less fertile soil to the field surface, which reduces the fertility of the arable layer and, as a result, productivity field crops.

In addition, when treating the soil with reversible plows, a friable, leveled field surface is obtained, therefore, on sloping lands with snow melting and rainfall, the soil treated with such plows undergoes water erosion.

A tool for anti-erosion tillage is also known [patent of the Russian Federation No. 2310297, class. АВВ 13/16, 49/02, application No. 2006110796/12 dated 03.04.2006, publ. 11/20/2007. Bull. No. 32], comprising a frame with a support wheel and a beam located at an angle to the longitudinal axis, on which plow bodies are fixed, and a disk battery placed at an angle to the longitudinal axis of the implement, containing a supporting element with disk working bodies, each of which is pivotally mounted on the supporting element by means of a stand connected to the supporting element by a spring, and the last two in the direction of movement of the plow body guns have shortened dumps.

The disadvantage of this implement is that the main tillage is carried out by plow bodies to a depth of at least 18 cm. Therefore, this implement cannot be used on sloping lands with a washed out topsoil, the thickness of the upper fertile soil layer on which is less than 18 cm. Use on such The fields of this implement also lead to the removal of less fertile soil to the field surface and its mixing with the upper more fertile layer, which reduces the fertility of the upper arable layer and, as a result, is fruitful five field crops.

Since soil cultivation with this implement is carried out across the slope by the driven method, one part of the soil processed by plow bodies and disk working bodies moves up the slope, and the other part, when the implement moves in the opposite direction, down the slope. In this regard, this tool is unable to level the thickness of the upper fertile soil layer, the upper part of which was previously shifted down the slope under the influence of water and technological erosion.

The closest technical solution (prototype) to the proposed is a tool for anti-erosion tillage [patent of the Russian Federation No. 2318303, class. АВВ 13/16, 49/02, application No. 2006127791 of July 31, 2006, publ. 03/10/2008. Bull. No. 7], containing a frame on which there are two support wheels, loosening-cutting legs for fine tillage, on the racks of which are mounted furrow formers, right and left load-bearing elements mounted at an angle to the longitudinal axis of the implement, the top of which faces its front part , with pivotally mounted right and left disc working bodies.

The disadvantage of the prototype is that when the wings are formed across the slope by the right and left disk working bodies, part of the cropped upper soil layer with the stubble moves in two directions: one part up the slope and the other part down the slope. Since on the slope lands the thickness of the upper fertile soil layer in the upper part of the slope is always less than in its lower part, as a result of the movement of the upper fertile soil layer down the slope under the influence of gravity, as well as from the effects of water and technological erosion, then for leveling the thickness of the upper fertile soil layer, it is necessary to ensure a return in one direction constantly up the slope of the upper fertile soil layer previously moved down the slope. This tool does not provide a return in one direction constantly up the slope previously moved down the slope of the upper fertile soil layer. Therefore, it is unable to even out the thickness of the upper fertile soil layer over the entire treated surface of the slope lands.

In addition, the right and left disk working bodies are installed in such a way that when creating the side scenes, a continuous cutting of the top soil layer with stubble is performed, in this regard, the side scenes are laid on the treated field surface without stubble. This reduces the linkage between the wings and the treated field surface; therefore, during heavy snowmelt and heavy rains, the wings are eroded by water flows and the fertile topsoil moves down the slope, which reduces the erosion resistance of sloping lands.

The technical result of the invention is to align the thickness of the upper fertile soil layer on the treated surface of the slope lands and increase their erosion resistance.

The technical result is achieved in the proposed tool for anti-erosion tillage, containing a frame with two support wheels, on which loosening-cutting legs are fixed for continuous shallow tillage, by the fact that on the tool frame, before loosening-cutting legs on vertical axes, at an angle to the longitudinal the axes of the guns are installed unilateral plane-cutting working bodies with a dump surface that can be rotated in the horizontal plane, which, when the unit moves across the slope, provide the strips of the top layer of soil with stubble and the movement of the soil-stubble mass, when creating the wings, constantly up the slope, while one-sided plane-cutting working bodies with a dump surface are mounted on the implement frame in such a way that when creating the wings, the soil-stubble mass moved by them is laid into strips with stubble left on the field surface.

The set of essential features of the proposed tool for anti-erosion tillage provides the following technical processes: performing continuous shallow loosening without loosening the soil layer, simultaneously trimming the topsoil with the stubble stripes, moving the cropped soil-stubble mass in one direction constantly up the slope when moving the aggregate across the slope and creating across the slope from the cut and displaced soil-stubble mass against erosive wings laid on the strips left on a surface stubble field.

The features of the invention are in the following causal connection with the achieved technical result.

Since the proposed tool for anti-erosion tillage on the frame, in front of the loosening-cutting paws, at an angle to the longitudinal axis of the tool on the vertical axes, one-sided plane-cutting working bodies with a dump surface with the possibility of rotation in the horizontal plane are installed, in comparison with the known tool (prototype ) during the work of the proposed tool for anti-erosion tillage, continuous shallow subsurface loosening of the soil without displacement of the soil layer and simultaneous cutting of the polo the topsoil together with the stubble and the movement of the cut soil-stubble mass, when creating the wings, in one direction constantly up the slope, while one-sided plane-cutting working bodies with a dump surface are mounted on the implement frame in such a way that there are strips left between them on the surface of the field of stubble, on which the erosion control wings created from the moved soil-stubble mass are laid.

This, in comparison with the known implement (prototype), ensures alignment of the thickness of the upper fertile soil layer on the treated surface of the slope lands due to the return by moving in the same direction constantly up the slope of the upper soil layer previously moved down the slope by water and technological erosion and more uniform distribution over the entire treated field surface. In addition, since the created wings are laid on stubble strips, due to the additional linkage of the wings with the stubble, and hence with the treated field surface, their mechanical strength from erosion by melt and rain water flows increases, which increases the erosion resistance of sloping lands.

The proposed tool for anti-erosion tillage is illustrated in FIG. 1-2. In FIG. 1 shows a diagram of the proposed tools for anti-erosion tillage; in FIG. 2 schematically shows the technological process performed by the anti-erosion tool, and shows the cross section of the soil layer treated with the proposed tool.

The proposed tool for anti-erosion tillage contains a frame 1 on which the support wheels 2 are mounted with adjustment mechanisms 3 for the depth of tillage, loosening-cutting legs 4 for shallow tillage, one-sided plane-cutting working bodies with a dump surface 5, vertical axes 6, adjusting screws 7 hydraulic cylinder 8.

The tool for anti-erosion tillage works as follows. Before operating the implement using adjustment mechanisms 3, the depth of cultivation (N) is adjusted - 9 soils with loosening-cutting paws 4, and the depth of cutting of the upper soil layer with stubble (h) - 10 single-sided plane-cutting working bodies with a dump surface 5 using the adjusting screws 7 . At the first passage of the erosion control tool with a hydraulic cylinder 8, unilateral plane-cutting working bodies with a dump surface 5 are rotated on the vertical axes 6 so that their dump surfaces are facing at an angle to the top of the slope.

When the tillage unit moves along the field, the loosening-cutting legs 4 for shallow cultivation carry out continuous cutting and loosening of the soil without turning the formation to a depth of (N) - 9 to 16 cm, at the same time one-sided plane-cutting working bodies with dump surface 5, as a result of which that they are installed in front of the loosening-cutting paws 4, at an angle to the longitudinal axis of the gun and facing the top of the slope with a dump surface, cut the strips of the upper soil layer to a depth of (h) - 10 to 5 cm together with the stubble and move the cropped th soil-stubble mass up the slope. Since unilateral plane-cutting working bodies with a dump surface 5 cut the top layer of soil with stubble strips, on the treated field surface between strips with trimmed stubble there are strips with stubble stored on the field surface, which alternate with each other, resulting in soil-stubble trimmed by strips the mass when creating the scenes is laid on strips with stubbles stored on the surface of the field, while forming anti-erosion wings 11 across the slope.

When turning the tillage unit at the edges of the field using the hydraulic cylinder 8, one-sided plane-cutting working bodies are rotated with the dump surface 5 on the vertical axes 6 in the horizontal plane, so that their dump surfaces are again turned at an angle to the top of the slope, this will ensure the movement of the trimmed soil - the stub mass in one direction is constantly up the slope both in the forward and in the opposite directions of movement of the unit.

As a result of the technological process, a continuous shallow subsurface tillage is performed, the upper fertile soil layer is leveled in thickness due to the return of the upper soil layer previously moved down the slope by water and technological erosion by moving it with unilateral plane-cutting working bodies with the dump surface in one direction constantly up the hill . At the same time, anti-erosion scenes are formed, located across the slope and laid on strips with stubbles stored on the surface of the field, which increase the erosion resistance of the slope lands.

The proposed tool for anti-erosion tillage in comparison with the prototype provides alignment in thickness of the upper fertile soil layer on the treated surface of sloping lands and increase their anti-erosion resistance.

Claims (1)

An anti-erosion tillage tool containing a frame with two support wheels, on which loosening-cutting paws are mounted for continuous shallow tillage, characterized in that on the vertical axis of the tool in front of the loosening-cutting legs are mounted one-sided plane-cutting working bodies with a dump surface, which can be rotated in a horizontal plane, which provide undercutting by strips of the top soil layer with stubble and move the undercut venno-stubble mass scenes when creating erosion constantly uphill into strips with left on the surface stubble field.

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