RU2294070C1 - Tillage tool for erosion-preventive soil tillage - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: tillage tool has frame consisting of front, rear, right-hand and left-hand bars with supporting-regulating device and working tools for basic soil tillage, said tools being made in the form of ripping-undercutting hoes. Central hoe has furrower and is fixed on front bar along tool longitudinal axis. Right-hand and left-hand ripping-undercutting hoes are mounted on respective lateral right-hand and left-hand bars of frame, symmetrically with respect to one another and at an angle to longitudinal axis of tool whose apex is oriented toward its rear part. Mounted on frame are right-hand and left-hand carrier members with right-hand and left-hand disk tools pivotally fixed on carriers, said tools being arranged at both sides of tillage tool, at an angle to its longitudinal axis. Right-hand and left-hand carrier members of disk working tools are positioned so as to be adjusted in vertical plane relative to frame. Disk-type working tool is pivotally secured in rear part of tillage tool, on one of side bars, in front of any outer ripping-undercutting hoe, and adapted for forming of stubble coulisse. Disk-type working tool is adapted for moving along side bar of frame and in vertical plane.

EFFECT: increased erosion-preventive effectiveness and reduced consumption of power during operation of tillage tool.

3 dwg

Description

The invention relates to agricultural machinery and can be used for anti-erosion tillage, in particular sloping lands.

Known tool to combat soil erosion [USSR copyright certificate No. 396101, class. A 01 B 13/16, 49/02, application No. 1723897 dated 10.12.71, publ. in BI No. 36, 08.29.73], containing a frame with a support wheel, on the beam of which plow bodies are fixed, the rear of which is made with a shortened blade, and the adjacent one with a subsoiler. A frame is mounted on the plow frame from the side of the uncultivated field, to which a battery with disk working bodies mounted on the axes is attached at an angle to the direction of movement. Battery disks are located one from another with a step that ensures the transfer of the cut layer from the disk to another disk, in the direction of the furrow formed by the plow body with a subsoiler. The disk battery is attached to the plow frame with the ability to independently copy the soil surface. Behind the battery are supporting wheels having a mechanism for adjusting the depth of travel.

The disadvantage of this known tool is that copying the soil surface is performed by the entire disk battery, without the possibility of individual copying of the soil surface by each disk working body of the battery, this leads to insufficient copying of the field surface of the disk battery and poor separation of the soil between the disks, during the transportation of the cut layer, in view of this, the stubble roll has low permeability and anti-erosion efficiency, due to the high content of soil in it. Placing disk working bodies without the possibility of moving them in a vertical plane does not allow to pass the surplus plant mass, makes it difficult to overcome their natural mechanical obstacles and increases energy consumption.

A tool for anti-erosion tillage is also known [USSR copyright certificate No. 1796083, cl. A 01 B 13/16, 49/02, application No. 4884607 from 11/22/90, publ. in BI, No. 7, 02.23.93] containing a frame, a support wheel, plow bodies mounted on a beam of a frame, one of the plow bodies having a shortened blade, and a plow body with a subsoiler installed in front of it. On the plow frame with clamps, a supporting element is fixed with disk working bodies pivotally mounted on racks. When copying the field microrelief, oscillations of the disk working bodies relative to each other occur due to their articulation with the supporting element, as a result of which, during transportation, the cut layer is partially separated from the soil. Regardless of the stroke depth of the plow bodies, the depth of cutting of the top soil layer by disk working bodies is provided by an adjustable limiter of the angle of rotation of the rack of the disk working body in the form of a screw mounted on the bracket of the bearing element. The supporting element has the ability to move along the beam of the frame with plow bodies and change the angle of attack of the disk working bodies.

The disadvantage of this known tool is that the supporting element is mounted on the plow frame using clamps, thus there is no possibility of moving along the height of the supporting element with disk working bodies relative to the frame, therefore, with a minimum depth of tillage with plow bodies, to ensure cutting of crop residues by disk workers bodies, they with the help of adjusting screws fall down relative to the supporting element, while the angle of inclination of the rack to the soil surface increases, and this dit to increase the vertical force on the rack and, as a consequence, to a deterioration of copying of the microrelief field and separating the cut soil, which leads to the formation of stubble scenes with low water absorbing, and anti-erosion efficacy. The presence of a subsoiler on the plow shell of the gun significantly increases energy consumption.

The closest technical solution (prototype) to the proposed is a tool for anti-erosion tillage [patent of the Russian Federation No. 2125778, cl. A 01 B 13/16, 49/02, application No. 97111523 from 07/08/97, publ. 02/10/99], containing a frame consisting of bars, with a support and adjustment device, working bodies for the main tillage, located on the frame at an angle to the longitudinal axis of the implement, the top of which faces the rear of the implement, the rear of which is made with a shortened dump, and the adjacent one with a subsoiler, while the working body with a shortened blade is shifted back relative to the working body with a subsoiler, so that the stubble roller laid in the furrow is covered by soil from above, the right and left load-bearing elements with rnirno fixed on leads right and left disc working elements mounted on both sides of tools at an angle to its longitudinal axis, the apex of which faces the rear of the gun.

The disadvantage of the prototype is that the stubble roll, laid in a furrow, is covered by soil from above due to the displacement of the body with a shortened blade back. As a result of this, silting residues of the roll are silted with soil, which reduces its porosity and water permeability, while the anti-erosion efficiency of the stub roll decreases sharply. The presence of a subsoiler leads to an increase in energy consumption. The asymmetric arrangement of the plow shells of the implement on a beam installed at an angle to the longitudinal axis of the implement leads to an increase in the friction force of the plow body against the furrow wall arising from the reaction from the treated soil layer, which leads to an increase in energy consumption. The lack of adjustment of the load-bearing elements of the disk working bodies in height relative to the implement’s frame in the case of minimal tillage by plow bodies leads to an increase in the angle of inclination of the leads to the soil surface, this leads to an increase in the vertical force acting on the leads, impaired copying of the microrelief of the soil by disk working bodies and an increase in energy consumption.

The technical task of the invention is to increase anti-erosion efficiency while reducing the energy intensity of tools for anti-erosion tillage.

The solution to the technical problem is achieved in the proposed tool for anti-erosion tillage, containing a frame consisting of bars, with a support-adjusting device, working bodies for the main tillage, located on the frame at an angle to the longitudinal axis of the implement, the top of which faces the rear of the implement, left and right load-bearing elements with right and left disk working bodies pivotally mounted on leashes mounted on both sides of the implement at an angle to its longitudinal axis, the apex of which is facing days of the implement’s part, in that on a frame consisting of front, rear, right and left bars, with a support and adjustment device made in the form of support wheels, the working bodies for the main tillage are made in the form of loosening-cutting legs, the central one them with a furrow former mounted on the front beam of the frame, along the longitudinal axis of the gun, and the right and left loosening-cutting legs are mounted on the side, respectively, right and left, bars of the frame, symmetrically relative to each other and at an angle to the longitudinal the axis of the gun, the apex of which is facing the rear of the gun, and the right and left load-bearing elements of the disk working bodies are mounted with the possibility of their adjustment in height relative to the frame of the gun, in addition, in the rear of the gun on one of the side bars, before any one of the extreme loosening - cutting paws installed finally forming a stub link, a pivotally mounted disk working body that can move along the side beam of the gun frame and in height.

This combination of features of the proposed tool provides the following technical results in the implementation of the invention: subsurface cultivation of the soil with the simultaneous formation of stubble wings laid in an open furrow, while partially embedded in the soil and partially located on the field surface, with a given width and height, depending on field slope values, as a result of which its water permeability and anti-erosion efficiency are improved; reducing the friction force of the working bodies for the main tillage on the wall of the furrow, improving the copying of the field microrelief by disk working bodies, with minimal tillage by the working bodies for the main tillage, resulting in reduced tool energy consumption.

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

Since in the proposed tool on a frame consisting of front, rear, right and left bars, with a support and adjustment device made in the form of support wheels, the working bodies for the main tillage are made in the form of loosening-cutting legs, the central one with a furrow former is fixed on the front beam of the frame, along the longitudinal axis of the implement, and the right and left loosening-cutting legs are mounted on the side, respectively right and left, bars of the frame, symmetrically relative to each other and at an angle to the longitudinal the main axis of the gun, the apex of which is facing the rear of the gun, and the right and left load-bearing elements of the disk working bodies are installed with the possibility of their adjustment in height relative to the frame of the gun, and in addition, in the rear of the gun on one of the side bars in front of any one the final loosening-cutting paws installed finally forming the stub link, articulated disk working body that can move along the side beam of the gun frame and in height, then in comparison with the known tool (prototype) the proposed implement implements soilless cultivation with simultaneous cutting of crop residues along the implement’s working width and transporting the cut mass to the center of the implement, into the open furrow, as well as the final formation of the stub linkage laid in the open furrow, while the stubble linkage is partially embedded in the soil and partially located on the surface of the field, with a given width and height, depending on the magnitude of the slope of the field. On the other hand, since in the proposed tool the right- and left-side loosening-cutting legs are mounted on the side, respectively right and left, bars of the frame, symmetrically relative to each other and at an angle to the longitudinal axis of the gun, the apex of which is facing the rear of the gun, in comparison with the known tool (prototype), the friction force of the working bodies for the main tillage against the furrow wall is reduced by balancing the horizontal forces arising from the cultivated soil. And also, since in comparison with the known tool (prototype) in the proposed tool, the right and left load-bearing elements of the disk working bodies are installed with the possibility of their adjustment in height relative to the frame of the tool, the required depth of cutting crop residues by the right and left disk working bodies is set without increasing the angle of inclination of the leashes on which they are fixed, this reduces the force on the leashes arising from the reaction from the soil to the disk working bodies, and allows better copying of the microrelief along i.

Figure 1 schematically shows the proposed tool for anti-erosion tillage, plan view; figure 2 is a fragment of a bearing element with disk working bodies, view A, given in figure 1; figure 3 is a section along BB in figure 1.

The proposed tool for anti-erosion tillage contains a frame consisting of a front 1, rear 2 and side, right 3 and left 4, bars, on the side, 3 and 4, bars of the frame, symmetrically relative to each other and at an angle to the longitudinal axis 5 of the implement, the apex of which is facing the rear, right-handed 6 and left-handed 7 loosening-cutting legs. On the front beam 1 of the implement’s frame, along its longitudinal axis 5, a central loosening-cutting paw 8 with a furrow former 9 is installed. To the frame using screw mechanisms 10, symmetrically and at an angle to the longitudinal axis 5 of the implement, the right 11 and left 12 load-bearing elements are attached . On the supporting elements, 11 and 12, at an angle to the longitudinal axis 5 of the gun, the apex of which is directed towards its rear part, and with a step t - 13, the right 14 and left 15 disk working bodies are mounted on leashes 16 pivotally connected to the bearing elements , 11 and 12, by means of the axes 17. The right 14 and left 15 disk working bodies are additionally connected to the supporting elements, 11 and 12, the springs 18, the tension of the springs 18 is regulated by screws 19. The angle of inclination β - 20 of the leads 16 to the soil surface is set with adjusting bolts 21. Left-side loosening-under the cutting legs 7 and the left supporting element 12 with the left 15 disk working bodies are a mirror image of the right-hand loosening-cutting legs 6 and the right supporting element 11 with the right disk working bodies 14. On the left beam there are 4 gun frames in front of the last left loosening-cutting foot 7, a bracket 22 is installed with a finally forming stub link, pivotally mounted by a disk working body 23. Support wheels 24 with adjustment mechanisms 25 for the depth of tillage are installed on the frame. In the rear part of the erosion control tool between the extreme, right-handed 6, left-handed 7, loosening-cutting paws and the rear beam 2 of the frame, an exit window 26 is provided through which the stub link 27 is inserted into the furrow 28.

The proposed tool for anti-erosion tillage works as follows. When the unit moves along the field, the central 8, right-6 and left-handed 7 loosening-cutting legs loosen the soil without turning the formation to a depth of 15 ... 35 cm, while an open furrow 28 is formed along the longitudinal axis 5 of the implement with a furrower 9. At the same time, the right furrow 28 and left 15 disk working bodies under the influence of their own weight and the additional load created by the springs 18, are deepened and, rotating under the influence of the soil reaction, cut the top layer of the soil together with crop residues. As a result of the fact that the disk working bodies, 14 and 15, are mounted on the supporting elements, 11 and 12, with a pitch of t - 13 and at an angle to the longitudinal axis 5 of the gun, the top of which is directed to its rear part, the cut mass is transported from one disk the working body to another in the center of the gun, in the furrow 28, made by the furrower 9. Finally forming the stub link, the pivotally mounted disk working body 23 directs the trimmed mass into the open furrow 28 and finally forms the stub link 28. The stubble stub link 27 extends into the exit window 26, between the uprights of the last right- 6 and left-side 7 loosening-cutting legs. As a result of the technological process, subsurface processing is performed and a local water-absorbing element is formed in the form of a stubble link 27, partially located in the soil and partially on its surface. Thanks to the swivel connection with the bearing elements, 11 and 12, the disk working bodies, 14 and 15, are able to individually copy the field microrelief, pass the excess crop mass and roll over obstacles. In the process of transportation, the cutting mass is agitated by the disk working bodies, 14 and 15, due to their oscillations relative to each other, as a result of which the soil is partially separated into the interdisk space. Copying the field microrelief is regulated by changing the pressure of the disk working bodies, 14 and 15, on the soil, by changing the tension of the springs 18, using screws 19. The cutting depth of the upper soil layer is limited by the disk working bodies, 14 and 15, using the adjusting bolts 21. The depth of the main tillage by the right- 6 and left-sided 7 loosening-cutting legs, as well as the central loosening-cutting leg 8 is set by the support wheels 24, by means of adjustment mechanisms 25. When installing mini the smallest depth of tillage with loosening-cutting paws, 6, 7 and 8, bearing elements, 11 and 12, with disk working bodies, 14 and 15, are lowered downward relative to the frame, by screw mechanisms 10. This makes it possible to set the desired depth of crop cutting with disk working bodies, 14 and 15, without changing the angle of inclination β - 20 leads 16 to the soil surface. In the formation of the anti-erosion scenes from coarse stubble crop residues (sunflower and corn stalks), as well as straw piles found on the field, to prevent clogging of the exit window 26 by the transported mass, finally forming the stub link, the articulated disc working body 23 shifts the formed stubble link 27 its position becomes asymmetric and the excess trimmed mass passes through the exit window 26 without touching the rack of the extreme left-side loosening-cutting legs 7. Moved e arm 22 is finally formed with stubble connecting link hingedly fixed disk working body 23 on the left side of the frame 4 and Brus adjustment allows to obtain stubble connecting link 27 with the given parameters height and width. Due to the symmetrical arrangement on the lateral right 3 and left 4 bars of the frame at an angle to the longitudinal axis 5 of the guns of the right-6 and left-handed 7 loosening-cutting paws, their friction force is reduced against the furrow wall due to balancing the horizontal forces arising from the cultivated soil, thereby reducing the energy intensity of the guns.

Claims (1)

An anti-erosion tillage tool containing a frame consisting of beams with a support and adjustment device, working bodies for the main tillage, located on the frame at an angle to the longitudinal axis of the implement, the apex of which faces the rear of the implement, right and left load-bearing elements with right and left disk working bodies pivotally mounted on leashes mounted on both sides of the gun at an angle to its longitudinal axis, characterized in that the frame consists of front, rear, right and left bars, and p the side organs for the main tillage are made in the form of loosening-cutting legs, the central one having a furrow-forming tool and mounted on the front beam of the frame along the longitudinal axis of the implement, and the left and right loosening-cutting legs are mounted on the side, respectively, right and left, uneven bars frames symmetrically relative to each other and at an angle to the longitudinal axis of the gun, and the right and left load-bearing elements of the disk working bodies are installed with the possibility of their adjustment in height relative to the frame of the gun, while in the bottom of the gun, on one of the side bars, in front of any one of the extreme loosening-cutting paws, a pivotally mounted disc working body is finally formed to the stub link, having the ability to move along the side beam of the gun frame and in height.

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