RU2220522C2 - Method and apparatus for erosion-preventive plowing of slopes - Google Patents

Abstract

FIELD: agricultural production and agricultural engineering. SUBSTANCE: method involves providing advancement of erosion- preventive plowing apparatus for simultaneous creation of subsurface moisture accumulating cavities and formation of waterproof surface of sloped field by using flat tillage of transverse windrows, ridges and U-shaped cavities, whose walls are covered with mulching layer, with stubble on field surface being kept. Apparatus has rippers, which are automatically adjusted for various plow depth values, windrow formers, chisels, flat hoes and roll with bars. Chisels, windrow former and flat hoe are mounted on ripper. Chisel and windrow former base, which are arranged below chisel, are rigidly fixed on front part, and flat hoes are fixed on sides so that their wings are spaced from chisel point by predetermined distance. This leads to reduced draft, in particular, during forming of moisture accumulating cavity at depth of h₃.. EFFECT: increased efficiency by improving waterproofing of plowed soil layer on sloped field surface. 3 cl, 5 dwg

Description

 The invention relates to agricultural production and agricultural machinery, in particular to anti-erosion methods of tillage and devices for its implementation.

 A known method of primary tillage [1], which consists in layer-by-layer cutting and loosening of the formation with multiple cutting of the root system and the rotation of the loosened soil layer using a knife grate and a reversible plow.

 The disadvantages of the known method of loosening slopes should be attributed to the fact that after such treatment on the slope fields, water and wind erosion develops, and a plow with a knife grate violates the wind resistance of the surface of wind-driven slopes.

 A known method of two-tier loosening of slope fields [2], which consists in the fact that the formation is first horizontally cut to a depth of 16 cm, and then it is deepened to 30 cm, loosening and cutting weeds in one pass of the unit with tiered flat-cutting legs.

 The disadvantages of this method include the fact that the implementation of this method does not exclude the flow of melt and rainwater, both surface and subsoil along a flat bottom of the furrow formed by the lower second tier of the paws.

 There is a method of anti-erosion loosening of slopes, including soilless tillage and the creation of a cascade profile at the bottom of the arable layer [3], carried out by continuous loosening of the upper layer with simultaneous loosening of the lower layer at different depths, carried out by cultivators with a displaced arrangement of racks.

 The disadvantages of the known method of loosening the slope include not only that the soil loosens above the cascade profile of the bottom insufficiently, but also that the water resistance of the upper layer is insufficiently formed, since in case of a difficult slope, streaming water erosion appears along the track of rippers.

 In addition, when forming an element of the subsoil cascade with the greatest depth, energy costs increase compared to the formation of the smallest element of the cascade of the upper tier.

 EFFECT: increased water resistance of a loosened layer and a surface of slope fields.

 To eliminate these drawbacks, to achieve a technical result simultaneously with the formation of subsoil water-holding tanks, by creating a cascade profile at the bottom of the arable layer, plane-cutting is performed to a depth less than the depth of the smallest tank from this cascade, which consists of three tanks, and on the surface of the loosened area crafts of transverse └┘-shaped open water-holding tanks and earthen rollers located across the slope are made; the bottom of the tank is mulched.

 The device for implementing the method is equipped with different-sized cultivators with a chisel roller, flat-cutting legs, behind which there is a roller with corrugated rods with an ellipse cross section, mounted on disks, with the possibility of rotation in bearing devices.

 The combination of plane-cutting processing with the creation of a cascade profile at the bottom of the arable layer allows not only to eliminate the subsoil runoff and increase the wind resistance of the surface of the loosened field, but also to make this technological method with high quality crumbling of the soil and ensuring complete cutting of weeds.

 The implementation of plane-cutting tillage to a depth less than the depth of the smallest capacity from the proposed cascade makes it possible to maintain the water-holding parameters of the formed cascade during the production of anti-erosion loosening of slopes.

 Faking transverse └┘-shaped open water holding tanks over the cascade profile of the bottom of the furrow allows you to eliminate the negative processes that appear in areas of joint action of water and wind erosion.

 The formation of earthen rollers located across the slope eliminates surface runoff on slope fields.

 Mulching the bottom and walls of open └┘-shaped water-holding tanks allows you to increase the moisture absorption of the soil, to eliminate the rate of moisture evaporation from the loosened layer.

The implementation of the installation of the racks of the device at different depths (h ₁ <h ₂ <h ₃ ) makes it possible not only to create a cascade profile at the bottom of the arable layer, but also to process the soil in the fields located on the plain to a depth of h ₂ and h ₁ . The location behind and above the chisel of the roller divider allows not only to improve crumbling of the soil, but also to form an earthen roller located near the gap, which is formed by the stand of the cultivator, which makes it possible to increase the time of absorption of precipitated sediments deep into the soil to the bottom of the cascade profile.

 The location of the skating rink with corrugated rods with an ellipse cross-section allows the formation of └┘-shaped containers that eliminate the surface runoff of melt and rainwater.

 Figure 1 shows a section of a strip processed by the proposed method of anti-erosion loosening of the slopes.

 Figure 2 shows schematically a device (top view) for implementing the method.

 Figure 3 presents the location of the working bodies on the carrier system of the device (side view).

 Figure 4 is drawn skating rink (front view).

 Figure 5 shows a section aa of figure 4.

The method includes cutting the water storage capacity 1, 2, and 3 to a depth of h ₁ , h _2, and h ₃ , respectively, between which ridges 4, 5, 6 of untouched slope soil with an inclination angle α _c remain. The bottom line of each tank is located at an angle α to the horizontal, with α> α _c , which in turn ensures the creation of a cascade profile at the bottom of the arable layer. Above this cascade, plane-cutting is performed to a depth of h and crafts of a depth of (α) └┘-shaped open water holding tanks 7, with earthen rollers 8 located across the slope, and └┘-shaped water holding tanks alternate with ridges 9. The bottom of └┘-shaped containers and their walls are covered with mulch 10 of small thickness. When precipitation occurs, water accumulates in open containers 7 and lingers in front of ridges 9 and rollers 8, easily seeps through mulch 10 and migrates deep into the loosened layer without flowing down the slope, since ridges 4, 5, 6 from untouched soil trap it in subsoil water-holding tanks 1, 2, 3 and gradually moisten the lower soil layers.

 The device for implementing the method is equipped with a frame 11, wheels 12 with adjustment mechanisms, a linkage 13, rippers 14, 15, 16, which are offset from each other by ΔВ. In the lower part of each cultivator, a chisel 17 and a roller divider 18 are made, made of a strip in the form of a twist curved upwards, and behind the cultivators are plane-cutting legs 19 fixed on spring struts so that they continuously loosen the soil without turning the bed at the same depth h regardless depth of the rippers. A bracket is attached to the rear transverse beam of the frame 11, to which the roller frame 20 is hingedly attached. In addition, the roller frame 20 is additionally connected to the bracket via a bar 21 and a spring 22. A structural feature of the roller 20 is that rods 24 s are located between its disks 23 section in the form of an ellipse with a corrugated surface. The rods 24 are mounted on the disks 23 with the ability to rotate them around the center line. The disks 23 are provided with pins on which the frame bearing devices are fixed.

When working on a slope, the cultivators 14, 15 and 16 form soil tanks 1, 2 and 3, respectively, with a depth of h ₁ , h ₂ , h ₃ , where h ₁ <h ₂ <h ₃ , flat-cut legs 19 loosen the soil without turning the bed, and weed is cut vegetation, the roller maker 18 forms an earthen roller 8, and the rods 24 form open containers 7 alternating with ridges 9. In addition, to increase water resistance, the subsoil containers alternate with ridges 4, 5 and 6.

After completion of the passage, the device rises to the transport position by means of a hitch 13 connected to the tractor, and when turning, the ripper 14 is lowered and the ripper 16 is raised by the remote hydraulic cylinders 25 and 26, and during the next pass it preserves the cascade formation of the bottom of the loosened layer. That is, deep h ₃ capacity alternate, then medium h ₂ and shallow h ₁ . For the same processing depth, a hydraulic cylinder 27 is also used.

 Performing in one pass the specified anti-erosion techniques eliminates multiple passes along the field of agricultural technology, reduces the dispersion of the upper layer and reduces the compaction of the lower horizons.

 The total effectiveness is obvious, since the method of anti-erosion loosening of the slopes not only increases the fertility of the cultivated soil layer, but also reduces the pollution of water bodies, in addition, the soil is washed away, and with it the removal of herbicides, pesticides, toxic substances in the form of residues of mineral fertilizers.

 The application of the method and device for its implementation does not violate the balance of the environment, increases stability, removes environmental problems associated with the development of water and wind erosion in the fields during the cultivation of spring, winter and row crops.

Sources of information
1. Gudkov A.N. Theoretical provisions for the selection of new systems of machines for tillage. - M.: Mechanical Engineering, 1968.

 2. Runchev MS. Soil cultivation of dry agriculture - scientifically-based equipment (south-steppe zone of Russia). Rostov-on-Don: Terra, 2001, p. 43.

 3. Gasparyan A.A. et al. Justification of anti-erosion loosening of slopes // Izvestia p. s. Sciences - NTE Journal of the State Agro-Industrial Complex of the Armenian SSR, 2 (334). Yerevan, 1987, p. 51-55.

Claims (2)

1. A method of anti-erosion loosening of slopes, including subsurface tillage and the creation of a cascade profile at the bottom of the arable layer, characterized in that, simultaneously with the formation of subsoil water-retaining tanks due to the creation of a cascade profile at the bottom of the arable layer, plane cutting is performed to a depth less than the depth of the smallest tanks from the cascade, consisting of three tanks, and on the surface of the loosened area, transverse | _ | -shaped open water-holding tanks and earthen rollers located across the slope, with at least the bottom of each open tank mulching. 2. A device for implementing the method, comprising a support system with tiered flat cutting legs, characterized in that it is equipped with different rippers with a chisel-roller maker, flat cutting legs, behind which there is a roller with corrugated rods, with an ellipse cross section, mounted on disks, with the possibility of turning in bearing devices.

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