RU2518254C2 - Method of accumulation moisture in soil and device for its implementation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture. The method comprises subsurface tillage together with cutting slits and formation of cavities. At that the cavities are formed to the depth of 30 to 60 cm due to low-frequency vibrations at a frequency of 1 stroke per second of blade cultivator trapezoidal semi-hoes on the sides of the rack. Sealing of the walls of the cavities is carried out by exposure to high-frequency vibrations with a frequency of 250 Hz by means of roller elements. The device comprises a hinged frame with support wheels and working elements. The boardless working elements are mounted chequerwise and comprise the made C-shaped racks with chisels fixed at the end and at the sides by the blade cultivator trapezoidal semi-hoes. Behind the racks the mole blades are attached, the trapezoidal semi-hoes in front part are pivotally mounted on the axes rigidly fixed on the sides of the rack, and at the rear part they have a kinematic connection to the mechanism of a wobble plate connected in turn to the power takeoff shaft of the power means. The mole blades are made in the form of brackets rigidly attached to the racks, equipped with axes with two pivot roller elements. At that the axis with the rollers is equipped with a vibrator and is mounted with the ability of displacement relative to the bracket.

EFFECT: inventions enable to increase the density of the walls of the cavities in the lower part and increase the cross section of the cavity by giving it a rectangular shape.

2 cl, 3 dwg

Description

The invention relates to the field of agriculture, and in particular to methods and devices for the accumulation of moisture in the soil due to melt water during non-mold soil treatment.

A known method of moisture accumulation (see RF patent No. 2250584 C2), which includes a chaffinch plowing, leveling the surface of the field and crafts furrows. Furrows are carried out in the arable and subsurface layers of the soil with the formation of cavities, and the cavities are formed by a rotary type working body.

However, the disadvantages of this method include the following:

1. Low quality of the walls of the cavities due to the lack of a compacted layer along the contour.

2. A small volume of cavities due to the cross section in the form of a circle.

3. High energy intensity for the process of soil preparation (plowing, leveling), as well as for the process of making furrows and cavities through the use of rotary type means.

The closest in technical essence and the achieved economic effect is the solution (see RU 2007113280 A, A01B 79/00, 10.27.2008), which discloses a method of accumulating moisture in the soil, including non-mold soil treatment together with cutting cracks and forming cavities and cut in the arable layer, the slots are filled with crumbling soil of the arable layer, and in the arable layer, the slots are formed open with jumpers from the soil, including on the surface of the arable layer between the slots from the treatment centers, slopes 3 are created in the direction of the slots -5 ° for better runoff moisture in them.

The disadvantages of this method are:

1. High energy consumption for the soil preparation process (plowing, leveling, the process of making furrows and cavity-cracks in the subsoil layer and the process of forming cracks in the arable layer), including through the use of racks, on the lower ends of which fixed working bodies are attached in the form frames with a chisel-drill located 10-12 cm below the cutting edges of the plowshares for moldless processing, and back openers for creating open slots in the arable layer are installed behind the plowshares on the rack and a fixture with blades for forming Bani in open crevices jumper from the soil.

2. Low quality of the walls of the cavities due to the lack of a compacted layer along the contour of the cavities and their small volume.

Also known is a tool for anti-erosion soil cleavage (see copyright certificate SU No. 1020011 A, A01B 13/16), which includes a frame with a sequential knife-slit and a working body for crafting tubules in slotted rollers having a drive mechanism, the working body of which made in the form of a curved blade, the convexity of which is directed in the direction opposite to the direction of movement, and is mounted on the frame articulated with the possibility of oscillations in the transverse plane relative to the direction of movement, and the drive of the working body is made crank-lever.

Disadvantages: poor quality of the walls of the cavities due to the lack of a compacted layer along the contour and the small volume of the cavities.

The technical result is to reduce energy costs, increase the density of the walls of the cavities in the lower part and increase the cross-section of the cavity by giving it a rectangular shape.

The technical result is achieved by the fact that in the known method, including soilless cultivation of the soil together with the cutting of cracks and the formation of cavities, according to the invention, the formation of cavities is carried out to a depth of 30 to 60 cm due to low-frequency vibrations at a frequency of 1 stroke per second of plane-cut trapezoidal half-holes from the sides of the rack and the sealing of the walls of the cavities is carried out by exposure to high-frequency oscillations with a frequency of 250 Hz using roller elements.

The technical result is also achieved by the fact that in the known device, consisting of a hinged frame with support wheels and working bodies, according to the invention, the bladeless working bodies are installed in a checkerboard pattern and comprise C-shaped posts with chisels and trapezoidal sides fixed to the end half-arms, drains are fixed at the back of the uprights, trapezoidal half-ups in the front part are hinged on the axes rigidly fixed on the sides of the rack, and in the rear part they are kinematically communication with the swinging washer mechanism, which, in turn, is connected to the power take-off shaft, and the drains are made in the form of brackets rigidly fixed to the struts equipped with axles with two articulated roller elements, while the axle with rollers is equipped with a vibrator and is installed with the possibility movements relative to the bracket.

The novelty of the method lies in the fact that the formation of cavities is carried out to a depth of 30 to 60 cm due to low-frequency vibrations at a frequency of 1 stroke per second of plane-trapezoidal half-holes from the sides of the rack, and the walls of the cavities are densified by high-frequency vibrations with a frequency of 250 Hz using roller elements.

New elements are that the subsurface working bodies are staggered and contain C-shaped racks with chisels and side trapezoidal half-holes fixed at the end, drains are fixed at the rear of the racks, trapezoidal half-holes at the front are hinged on the axes, rigidly fixed on the sides of the rack, and in the rear they have a kinematic connection with the mechanism of the swash plate, which, in turn, is connected with the power take-off shaft of the power tool, and the drains Full a rigidly fixed to the uprights bracket equipped with two hinge axes of roller elements, wherein the axis of the rollers is equipped with a vibrator and is movably mounted relative to the bracket.

The elements of the method and device are known in agricultural science, but according to the patent and scientific literature there is no similar claimed combination of features that allows to achieve a technical result.

The working process of the method of moisture accumulation in the soil is carried out as follows: after harvesting the previous crop, peeling is carried out, and then grooves are made with simultaneous rootless loosening, while rectangular cavities are created at a depth of 30-60 cm formed by low-frequency vibrations of two trapezoidal half-holes moreover, the walls of the cavities are tamped with high-frequency vibrations of the transverse axis with roller elements. Due to this, meltwater flows through the furrows and collects in the cavities of a larger volume and is retained due to the rammed walls for a long time.

A device for providing the method is presented in FIG. 1 (side view), in FIG. 2 (top view), in FIG. 3 (section B).

A device for the accumulation of moisture in the soil consists of a hinged frame 1 with support wheels 2. On the frame 1 there are staggered moldless working bodies containing C-shaped racks with chisels 3 fixed on the end and plane-trapezoidal half-holes 4 on the sides of the rack 5 moreover, the rack is made of a pipe profile. Behind the racks 5, there are fixed drains made in the form of brackets 6 with vibrator axles 7 and with two articulated roller elements 8 mounted on them. At the same time, vibrators 9 are mounted in the axles 7, powered from the power system of the power tool (not shown in the diagram). The half-holes 4 in the front part are pivotally mounted on the axes 10 of the uprights 5 rigidly fixed on the sides, and their rear part is kinematically connected with the mechanism of the swinging washer 11, kinematically connected, in turn, with the power take-off shaft.

The work is as follows.

When the device moves across the field, the working bodies are buried in the soil, while the racks 5 cut water-absorbing slits. Trapezoidal half-holes 4, oscillating (making low-frequency oscillations 1 turn per second) relative to the axes 10 using the mechanism of the swinging washer 11, driven from the power take-off shaft of the energy tool, form rectangular cavities, and vibrating (performing high-frequency vibrations of 250 Hz) using an electric vibrator 9 two pivoting the walls of the cavity with articulated rollers 8, especially from the sides and at the bottom. When moving, the rollers 8 are rotated, providing a reduction in energy costs.

The use of larger cavities will increase the amount of accumulated moisture, which will increase the amount of yield.

Claims (2)

1. A method of accumulating moisture in the soil, including subsurface tillage together with cutting cracks and cavity formation, characterized in that the cavity formation is carried out to a depth of 30 to 60 cm due to low-frequency oscillations at a frequency of 1 stroke per second of plane-cutting trapezoidal half-holes from the sides of the rack and the sealing of the walls of the cavities is carried out by exposure to high-frequency oscillations with a frequency of 250 Hz using roller elements. 2. A device for implementing the method of accumulating moisture in the soil according to claim 1, consisting of a hinged frame with support wheels and working bodies, characterized in that the bottomless working bodies are staggered and contain C-shaped posts with chisels fixed at the end and on the sides, plane-trapezoidal half-arms, behind the racks fixed drains, trapezoidal half-holes in the front part are hinged on the axes, rigidly fixed on the sides of the rack, and in the rear part are kinematically connected with a swinging washer mechanism, connected, in turn, with a power take-off shaft, and the drains are made in the form of brackets rigidly fixed to the racks, equipped with axles with two articulated roller elements, while the axle with rollers is equipped with a vibrator and is mounted with the ability to move relatively bracket.

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