RU2728129C1 - Canter for soil erosion control - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to the agricultural machine building. Tool for erosion prevention of soil comprises a frame with two support wheels. On frame fixed loosening-cutting legs for continuous tillage, in front of which on vertical axes there installed are single-sided flat-cutting working elements with dump surface, which can turn in horizontal plane. On the gun frame there are tanks with dosing devices for application of mineral fertilizers and preparations accelerating the process of stubble decomposition into the formed anti-erosion links. Slot cutters and compacting rollers are installed before single-sided flat-cutting working members with dump surface for cutting under erosion-preventing wings of slots with sealed upper base. Sealing rollers are secured behind the cutters.

EFFECT: higher anti-erosion resistance of soil and productivity of field crops on slope lands.

1 cl, 3 dwg

Description

The invention relates to agricultural engineering, in particular, to tools for anti-erosion soil cultivation.

Known device for cutting water-absorbing slots while filling them with straw [patent of the Russian Federation No. 2652147, class. А01В 13/16, application No. 2017130465 dated 28.08.2017, publ. 04/25/2018 Bul. No. 12], containing a frame on which a slot cutter is sequentially fixed, two guides in the form of a rake and a closing working body in the form of a cut disc with an involute profile of protrusions, attached to the frame with the possibility of height adjustment, for its installation in such a way that the slot includes only protrusions, and from the surface of the field to the depressions of the disc there is a distance equal to the height of the stubble.

The disadvantage of this device is that it does not have working bodies for continuous tillage, in addition, there are no mechanisms for introducing drugs that accelerate the decomposition of stubble and mineral fertilizers. The slots formed in this way, filled with straw with the exit of micro-curtains to the surface of the field, will only partially reduce the runoff of water flowing down the slope during the spring snowmelt, since the soil between the cracks is not processed and, as a result, it is overcompacted and has low water permeability, surface runoff will form, erosive. In addition, during subsequent soil treatments, the straw in the upper part of the crevices will be distributed in the upper layer of the cultivated field. Therefore, after sowing field crops throughout their growing season, a significant part of nitrate nitrogen will be spent on straw decomposition, which will reduce the yield of cultivated crops.

It is also known a combined tillage tool to prevent soil displacement down the slope [patent of the Russian Federation No. 2665069, class. А01В 49/02, 13/16. application No. 2017143051 dated 08.12.2017, publ. 28.08.2018 Bul. No. 25], including a frame with support wheels, installed on it cultivator working bodies and flat discs, located in one row and installed with the possibility of using the left or right working surface to move the soil constantly up.

The disadvantages of this tool are that the upper loose layer of soil with crop residues displaced by flat discs up the slope, without local deepening in the form of cut slots, does not create the necessary conditions for regulating water flow and the erosion process due to its insufficient water permeability and resistance to erosion.

In addition, the decomposition of crop residues placed in the upper soil layer requires a significant amount of nitrate nitrogen found in the soil. Therefore, after sowing field crops and during their growing season, there is a deficiency of nitrogen - one of the main elements of plant nutrition, which leads to a decrease in crop yields.

The closest technical solution (prototype) to the proposed one is a tool for anti-erosion soil cultivation [patent of the Russian Federation No. 2612211, class. А01В 13/16, application No. 2015151672 dated 01.12.2015, publ. 03.03.2017 Bul. No. 7], containing a frame on which two support wheels are installed, loosening-cutting paws for continuous shallow tillage in front of which on vertical axes at an angle to the longitudinal axis of the tool, one-sided flat-cutting working bodies with a moldboard surface are installed, which can be rotated in a horizontal plane, which provide cutting in strips of the upper layer of soil with stubble and move the cut soil-stubble mass while creating anti-erosion curtains constantly up the slope to strips with stubble left on the surface of the field.

The disadvantage of the prototype is that a significant part of the stubble, cut by one-sided flat-cutting working bodies with a moldboard surface, moved and formed into anti-erosion scenes, from the moment of soil cultivation to sowing field crops, partially decomposes. In this regard, for the decomposition of the remaining part of the stubble after sowing field crops, during their growth, a significant part of the nitrate nitrogen in the soil is consumed. Therefore, during the growth of field crops, nitrogen deficiency occurs - one of the main elements of plant nutrition. In addition, the prototype does not provide for a device for applying mineral fertilizers that increase the amount of nutrients for plants in an accessible form in the soil. Together, this reduces the yield of field crops on slope lands.

In addition, in the prototype there are no working bodies for cutting under the base of the anti-erosion couplings of the cracks, which facilitate the rapid penetration of water flowing down from the slopes into the deep horizons of the soil. This leads to the fact that with an intense runoff of water, during snow melting and rainstorms, water overflows through the anti-erosion curtains, leading to their destruction and soil erosion.

The technical result of the proposed invention is to increase the anti-erosion resistance of the soil and the yield of field crops on sloping lands.

The technical result is achieved in the proposed tool for anti-erosion soil cultivation, containing a frame with two support wheels on which are fixed loosening-pruning paws for continuous soil cultivation, in front of which one-sided flat-cutting working bodies with a moldboard surface are installed on the vertical axes, which can be rotated in a horizontal plane, which, when the unit moves across the slope, ensure the cutting of the top layer of soil with stubble in strips and the movement of the cut soil and stubble mass, during the formation of an anti-erosion backstage, constantly up the slope by the fact that containers with metering devices for the introduction of mineral fertilizers and preparations accelerating the process are installed on the implement frame decomposition of stubble, in the formed anti-erosion wings, and in front of the one-sided flat-cutting working bodies with a mouldboard surface, for cutting under the base of the anti-erosion wings, slots with a compacted upper base are installed slots and packer rollers, with packer rollers attached to the slots. In addition, the packer rollers have a wedge-shaped rim.

The set of essential features of the proposed tool for anti-erosion soil cultivation ensures the implementation of the following technical processes: performing continuous moldboard-free loosening of the soil, simultaneous cutting of the upper soil layer with stubble strips, moving the soil-stubble mass constantly up the slope area, introducing into the moved soil-stubble mass of mineral fertilizers and preparations accelerating the process of stubble decomposition, and the formation of anti-erosion curtains from the mass being moved, laid across the slope on cut slots with a compacted upper base.

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

Since in the proposed tool for anti-erosion soil cultivation, containers with metering devices are installed on the frame for applying mineral fertilizers and preparations that accelerate the process of stubble decomposition, and in front of the one-sided flat-cutting working bodies installed on the vertical axes with a moldboard surface, slots and compacting rollers with a wedge-shaped rim are installed, while the compacting rollers are attached to the slots, then in comparison with the known tool (prototype), during the operation of the proposed tool for anti-erosion soil cultivation, while carrying out continuous moldboard-free loosening of the soil and the simultaneous formation of anti-erosion curtains from the top layer of soil cut by strips together with stubble, in mineral fertilizers and preparations accelerating the process of decomposition of stubble in the wings are applied to them, and the wings are laid across the slope on cut slots with a compacted upper base.

This, in comparison with the known tool (prototype), provides accelerated decomposition of stubble located in anti-erosion curtains from the moment of soil cultivation to sowing field crops, which makes it possible to reduce the consumption of nitrate nitrogen in the soil, which is spent on decomposition of stubble residues during the entire growing season from sowing before harvesting field crops. Reducing the consumption of nitrate nitrogen, as one of the main nutrients for field crops during the growing season, and the introduction of mineral fertilizers will increase the yield of field crops on slope lands.

In addition, since the created anti-erosion linkages are laid on the slots with a compacted upper base formed by slots and compaction rollers with a wedge-shaped rim fixed behind them, this, in comparison with the known tool (prototype), allows to reduce the evaporation of soil moisture from the cut slots, to increase adhesion anti-erosion curtains with a treated field surface and their mechanical strength against water washout, while the upper compacted base of the formed cracks, filled with a porous soil-stubble mass of the curtain, reduces their siltation with washed-off fine earth, due to which, during snow melting and heavy rainfall, rapid penetration of water occurs in the lower horizons of the soil and the surface runoff on the slopes is reduced, which in general significantly increases the anti-erosion resistance of the soil.

The proposed tool for anti-erosion soil cultivation is illustrated in Fig. 1-3. FIG. 1 shows a diagram of the proposed tool for anti-erosion soil cultivation, FIG. 2 schematically shows the technological process performed by the anti-erosion tool, FIG. 3 shows a cross-section of a soil layer treated with the proposed tool.

The proposed tool for anti-erosion soil cultivation contains a frame 1, on which support wheels 2 are installed, loosening-pruning paws 3 for continuous tillage, one-sided flat-cutting working bodies with a moldboard surface 4, slots 5, compacting rollers 6 with a wedge-shaped rim, a container with a metering device 7 for applying preparations that accelerate the process of stubble decomposition, pump 8, hydraulic motor 9, nozzles 10, container for mineral fertilizers 11, metering device for applying mineral fertilizers 12, drive 13 of the metering device for applying mineral fertilizers, fertilizer pipelines 14.

The tool for anti-erosion tillage works as follows. Before the operation of the proposed tool, the container with the dosing device 7 is filled with a preparation that accelerates the decomposition of stubble, and the required rate of consumption of the working fluid is established. Tank 11 is filled with mineral fertilizers, the required rate of their introduction into the soil is set by the metering device 12. The hydraulic motor 9 is connected to the tractor hydraulic system.

When the tillage unit moves across the field, the pump 8, which receives rotation from the hydraulic motor 9, from the container with the dosing device 7 under pressure delivers a preparation accelerating the stubble decomposition into the nozzles 10, through which it is applied to the stubble. At the same time, slots 16 are cut by the slots 5 installed in front of the one-sided flat-cutting working bodies with a moldboard surface 4, while the compaction rollers 6 are fixed to the slots 5 and have a wedge-shaped rim, the upper base of the cut slots 16 is expanded with soil compaction in the upper part of the slot 17. The dosing device 12 is put into operation through the drive 13 from one of the support wheels 2. Mineral fertilizers supplied from the container 11 through the fertilizer pipe 14 are scattered in front of the one-sided flat-cutting working bodies with a moldboard surface 4. Further, one-sided flat-cutting working bodies with a moldboard surface 4 are cut strips of soil together with stubble and move the cut soil and stubble mass and mineral fertilizers up the slope to the place of the cut slots 16. As a result, the cut soil and stubble mass mixed with mineral fertilizers is placed on the cut slots 16 with a compacted top o warping 17, forming across the slope anti-erosion wings 15. After that, the loosening-pruning paws 3 carry out continuous pruning and loosening of the soil without turning the layer.

As a result of the technological process, continuous soil-free loosening of the soil is carried out, simultaneous cutting of the upper soil layer with stubble in strips, the movement of the soil-stubble mass constantly up the slope, the introduction of mineral fertilizers and preparations accelerating the process of stubble decomposition into the moved soil-stubble mass, and the formation of of the moved mass of anti-erosion couplings, laid across the slope on cut slots with a compacted upper base.

The proposed tool for anti-erosion soil cultivation, in comparison with the prototype, provides an increase in anti-erosion resistance of the soil and the yield of field crops on sloping lands.

Claims (2)

1. A tool for anti-erosion soil cultivation, containing a frame with two support wheels, on which loosening-pruning paws are fixed for continuous soil cultivation, in front of which one-sided flat-cutting working bodies with a moldboard surface are installed on the vertical axes, which can be rotated in a horizontal plane, characterized by that on the frame of the tool there are containers with metering devices for the introduction of mineral fertilizers and preparations that accelerate the decomposition of stubble, into the formed anti-erosion wings, and in front of the one-sided flat-cutting working bodies with a mouldboard surface for cutting under the base of the anti-erosion wings of the slots with a compacted upper base, slots and compacting rollers, with the compacting rollers being secured to the slots. 2. The tool of claim. 1, characterized in that the compacting rollers have a wedge-shaped rim.

Images