RU2652840C1 - Chisel plow-deep-tillage-fertilizer - Google Patents

Abstract

FIELD: agriculture; machine building.

SUBSTANCE: invention relates to agricultural machine building. Device contains wedge-shaped racks with fertilizer hoses mounted on their rear parts. Wedge-shaped racks are mounted on the frame, which has a suspension gear in the front part, and in the upper part has fertilizer dispensers, equipped with meters, hermetically connected with the fertilizer hoses. Wedge-shaped racks that serve as the chisel tools are fixed to the frame by articulated axles, while on the frame to the lower part behind the wedge-shaped racks stops are welded, in the groove of which the compression springs are mounted. Before the wedge-shaped racks, the stops for mounting shock absorbers from elastic material are welded to the lower part of the frame. Front part of the wedge-shaped racks has a sharpening, a cutting edge of which is made along a parabolic curve of an equation y=2x³, where y is the vertical coordinate of the equation; x is the horizontal coordinate of the equation. Rear part of the wedge-shaped rack has a fertilizer hose with injectors in the lower part. Wedge-shaped racks are installed on the frame crossmembers, one wedge-shaped rack on the front crossmember, on the second crossmember there are two wedge-shaped racks, on the third crossmember there are four wedge-shaped racks, distance between crossmembers

, where a – processing depth; α – the angle of blade installation of the wedge-shaped rack to the horizontal plane (angle of crumbling); γ – the angle of soil friction along the steel; ρ – the angle of soil friction along the soil; l₀ – the value determined by the design of the wedge-shaped rack, the width of the traces M = 400…500 mm. Distance between adjacent racks in one row t>0.5(2a+b), where a is the depth of cultivation; b is the working width of the wedge-shaped rack. For adjusting the depth of the cultivation, depth wheels and a meter drive are provided, and the formation of a fertilizer-air mixture is made from a high-pressure fan having a drive from a hydraulic motor. Placement of wedge-shaped racks in the plan – sides along the parabola y=-½x², where Y and X are the vertical and horizontal coordinates of the parabola.

EFFECT: reduction of draught resistance, breaking up of soil to the depth of response of the root system of plants, destruction of the sole shoe, application of meliorants and fertilizers into the root layer.

1 cl, 2 dwg

Description

The invention relates to agricultural machinery, in particular to tools for reclamation chisel soil cultivation with the possibility of loosening to a depth of plant responsiveness without disturbing biological processes with the destruction of the plow sole, improving the physical properties of the soil and its fertility.

A well-known working body for applying mineral fertilizers at the same time as soilless tillage, including a flat-cutting paw with a share and a field board, a stand, a fertilizer duct, a distribution chamber with an air-fertilizer mixture reflector installed in it, while the air-fertilizer mixture reflector is made in the form of a wedge with a semiconical cone on the back face, while the apex is offset from the axis of symmetry of the piping to the side of the field board, the distribution chamber has the shape of a hollow truncated pyramid, and on the back face of the plane-cutting paws mounted komkoobrazovatel (RU, patent 2363132, IPC 7/20 A01S, A01V 49/06). The advantages of this working body include the ability to perform two operations in one pass, and the disadvantages are the complexity of the design, limited functionality.

Known chisel plow-ripper containing a triangular frame with mounted on it working bodies, rippers, support wheels, the depth control, a hitch and equipped with an additional frame on which the disk batteries are pivotally mounted, and cuts in the form of isosceles triangles with round blades are made the angle at the apex is not more than 120 °, while the number of cuts is not more than 12, and the sharpening of the blades is made in an arc from the back side, while the battery disks are installed with an angle of attack from 5 to 25 ° (utility model RU 58004 U1, IPC А01В 63/111). The disadvantages of this chisel plow-ripper include increased traction resistance, the inability to fertilize the soil.

A tool for reclamation chisel soil cultivation is known that contains a combined wedge-shaped rack mounted on its rear part of the piping, and a vertical circular knife is placed in front of the rack, while the lower part of the combined wedge-shaped rack is made according to the parabola У ² = 2рп, where y and x are vertical and horizontal coordinates holes, and p - constant time, on the stand nose there is a replaceable bit made of hard wear-resistant steel at an angle of 20 ... 30 ° to the horizontal plane, fixed at the rear of the stand the wire has outlet openings on the sides, the outer edge of which is located in the plane of the side wall of the combined wedge-shaped rack, the outlet openings are evenly distributed in height in the area of the tillage soil horizon, the circular knife is fixed to the side walls of the combined wedge-shaped rack by bolted joints, the diameter of the disk knife D = 2a + d _f , where a is the depth of processing; d _f - the diameter of the flange of the bearing of a circular knife (RU, patent for invention 2579791 C1, IPC АСС 23/02; АВВ 17/00; АВВ 13/08; А01В 49/06). The disadvantages of this tool include increased traction resistance, limited functionality.

This weapon is accepted to us as the closest analogue. The essence of the claimed invention is as follows.

The problem to which the claimed invention is directed is reducing traction resistance, loosening the soil to a depth of responsiveness of the plant root system, destroying the plow sole, introducing ameliorants and fertilizers into the root layer of the soil.

где а - глубина обработки; α - угол установки лезвия клинообразной стойки к горизонтальной плоскости (угол крошения); γ - угол трения почвы по стали; ρ - угол трения почвы по почве; l₀ - величина определяемая конструкцией клинообразной стойки, ширина междуследия М=400…500 мм; расстояние между соседними стойками в одном ряду t>0.5(2a+b), где а - глубина обработки; b - ширина захвата клинообразной стойки, для регулировки глубины обработки предусмотрены опорные колеса, привод дозаторов и образование туковоздушной смеси выполнены от высоконапорного вентилятора, имеющего привод от гидромотора, размещение клинообразных стоек в плане - боковые стороны по параболе

где y и x - вертикальная и горизонтальная координаты параболы.The technical result is a decrease in traction resistance, increased soil fertility and crop yields. The specified technical result is achieved by the fact that the chisel-plow fertilizer containing wedge-shaped racks with mounted pipelines mounted on their rear parts, according to the invention, the wedge-shaped racks are mounted on a frame with a hinged device in the front part, and in the upper part the fertilizer devices equipped with dispensers are hermetically sealed connected to the pipelines, wedge-shaped racks acting as chisel guns are fixed to the frame articulated with the help of axes, while on the frame to its lower part behind the wedge-shaped Toyko welded abutments in the slot which compression spring mounted in front wedge uprights to the lower portion of the frame welded stops to set dampers of an elastic material, the front portion of the wedge-shaped struts has sharpening, the cutting edge which is formed by a parabolic curve of the equation y = 2x ³ where y - vertical coordinate of the equation; x is the horizontal coordinate of the equation, the back of the wedge-shaped rack has a piping with nozzles in the lower part, the wedge-shaped racks are installed on the cross members of the frame, one wedge-shaped rack on the front cross member, two wedge-shaped stands on the second cross member, four wedge-shaped stands, the distance between the cross members

where a is the depth of processing; α is the angle of installation of the blade wedge-shaped racks to the horizontal plane (angle of crumbling); γ is the angle of soil friction on steel; ρ is the angle of soil friction in the soil; l ₀ - the value determined by the design of the wedge-shaped racks, the width of the spacing M = 400 ... 500 mm; the distance between adjacent racks in the same row t> 0.5 (2a + b), where a is the processing depth; b - the width of the wedge-shaped racks, the support wheels are provided for adjusting the working depth, the metering drive and the formation of air-fluid mixture are made from a high-pressure fan driven by a hydraulic motor, the wedge-shaped racks are placed in plan - the sides are parabolic

where y and x are the vertical and horizontal coordinates of the parabola.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by all the features of the claimed invention. Therefore, the claimed invention meets the criterion of "novelty" under the current law.

The invention is illustrated by drawings.

In FIG. 1 - shows a plow-deep-ripper-fertilizer, side view.

In FIG. 2 - the same, top view.

Information confirming the possibility of implementing the claimed invention are as follows.

где а - глубина обработки; α - угол установки лезвия клинообразной стойки к горизонтальной плоскости (угол крошения); γ - угол трения почвы по стали; β - угол трения почвы по почве; V величина, определяемая конструкцией клинообразной стойки, ширина междуследия М=400…500 мм; расстояние между соседними стойками в одном ряду t>0.5(2a+b), где а - глубина обработки; b - ширина захвата клинообразной стойки. Для регулировки глубины обработки предусмотрены опорные колеса 15. Привод дозаторов 4 и образование туковоздушной смеси выполнены от высоконапорного вентилятора 16, имеющего привод от гидроматора 17. Размещение клинообразных стоек 6 в плане боковые стороны по параболе

где y и x - вертикальная и горизонтальная координаты параболы. Задняя поперечина перпендикулярна направлению движения, а ее длина рассчитана на установку четырех чизельных рабочих органа с заданной шириной междуследья М.The chisel plow-deep-ripper-fertilizer includes a mounted device 1 mounted in the front of the frame 2. On the frame 2 there are fertilizer devices 3 equipped with dispensers 4, hermetically connected to the pipelines 5. Wedge-shaped posts 6 are pivotally fixed to the frame 2 using the axis 7. K an emphasis 8 is welded to the lower part of the frame 2 behind the wedge-shaped posts 6, a compression spring 9 is installed in its groove. An emphasis 10 is welded to the frame 2 in front of the wedge-shaped posts 6. shock absorber 11. The front of the wedge-shaped rack 6 has a point 12, the cutting edge of which is made according to the parabolic curve of the equation y = 2 × ³ , where y is the vertical coordinate of the equation; x is the horizontal coordinate of the equation. The back of the wedge-shaped strut 6 has a hose line 13 with nozzles 14 in the lower part. Wedge-shaped posts 6 are installed on the cross members of the frame 2, one wedge-shaped rack on the front cross member, two wedge-shaped posts on the second cross member, four wedge-shaped posts on the third cross member, the distance between the cross members

where a is the depth of processing; α is the angle of installation of the blade wedge-shaped racks to the horizontal plane (angle of crumbling); γ is the angle of soil friction on steel; β is the angle of soil friction in the soil; V value determined by the design of the wedge-shaped racks, the width of the inter-spacing M = 400 ... 500 mm; the distance between adjacent racks in the same row t> 0.5 (2a + b), where a is the processing depth; b - the width of the wedge-shaped racks. Support wheels 15 are provided for adjusting the working depth. The drive of the dispensers 4 and the formation of air-fluid mixture are made from a high-pressure fan 16, which is driven by a hydraulic motor 17. The wedge-shaped racks 6 are arranged in plan view, the sides are parabolic

where y and x are the vertical and horizontal coordinates of the parabola. The rear cross member is perpendicular to the direction of movement, and its length is designed for the installation of four chisel working bodies with a given inter-track width M.

Chisel plow-ripper fertilizer works as follows. The capacity of fertilizer sowing apparatus 3 is filled with fertilizers in accordance with the application schedule. The hydraulic system of the plow-ripper-fertilizer is connected to the hydraulic system of the aggregate tractor. The support wheels 15 are set in accordance with a predetermined processing depth. When moving the plow-deep-ripper-fertilizer chisel working bodies 6 are deepened in accordance with the agrotechnical requirements for processing. The high-pressure fan 16 creates a pressure air flow, which flows through the pipelines 5 to the batchers 4. Rotating batchers of the batchers capture fertilizers from the capacity of the fertilizer apparatus 3 and direct them to the pipelines 13, the air-fluid mixture flows through the piping 13 to the nozzles 14, penetrates through cracks into soil formed by chisel working body 6 and saturates with fertilizers the arable and subsurface horizon of the soil. This ensures the creation of a fertile soil layer throughout the depth of the root layer of the soil and increases the yield of cultivated crops.

During operation, the effects of chisel working bodies 6 on the soil due to heterogeneity in hardness, density and moisture will be different in size, which causes vibration of the chisel working bodies 6 and a decrease in traction resistance of the plow. With increased pressure on the chisel working body 6, it deviates back, which causes compression of the spring 9, which provides the accumulation of potential energy. When reducing the magnitude of the force, the spring gives up the stored energy and moves the chisel working body 6 forward. In this case, the effect of the action of the chisel working body 6 on the frame 2 is compensated by the shock absorber 11.

The use of vibration of the chisel working body 6 significantly reduces the traction resistance of the chisel plow-deep-ripper-fertilizer, and also improves the crumbling of the soil layer.

Claims (1)

Chisel fertilizer plow containing wedge-shaped racks with mounted pipelines mounted on their rear parts, characterized in that the wedge-shaped racks are mounted on a frame with a hinged device in the front, and fertilizer devices equipped with dispensers hermetically connected to the pipelines in the upper part, wedge-shaped racks acting as chisel guns, pivotally mounted to the frame with the help of axes, and on the frame to its lower part, wedges are welded behind the wedge-shaped racks, in the groove of which are installed ruzyne compression wedge front uprights to the lower part of the frame abutments welded to install shock absorbers of a resilient material, the front part has a tapering wedge-shaped struts, the cutting edge which is formed by a parabolic curve of the equation y = 2x ^3, where y - Vertical coordinate equation; x is the horizontal coordinate of the equation, the back of the wedge-shaped strut has a duct with nozzles in the lower part, the wedge-shaped struts are installed on the cross members of the frame, one wedge-shaped strut on the front cross member, two wedge-shaped stands on the second cross member, four wedge-shaped stands, the distance between the cross members

where a is the processing depth; α is the angle of installation of the blade wedge-shaped racks to the horizontal plane (angle of crumbling); γ is the angle of soil friction on steel; ρ is the angle of soil friction in the soil; l ₀ - the value determined by the design of the wedge-shaped racks, the width of the inter-spacing M = 400 ... 500 mm; the distance between adjacent racks in the same row t> 0.5 (2a + b), where a is the processing depth; b - the width of the wedge-shaped racks, for adjusting the depth of processing, support wheels and a metering drive are provided, and the formation of the air-fuel mixture is made from a high-pressure fan driven by a hydraulic motor, the wedge-shaped racks are placed in plan - the sides are parabolic

where y and x are the vertical and horizontal coordinates of the parabola.

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