RU197883U1 - COMBINED SOIL PROCESSING UNIT - Google Patents

Abstract

The utility model relates to agriculture. The combined soil cultivating unit includes a frame on which vertical racks with axles are mounted and spherical disks mounted on the axles with the possibility of rotation, having an adjustable angle of attack, subsoilers, transport and technological wheels are installed behind the unit. On the periphery of each spherical disk, recesses are made in the form of a semicircle, and the cutting edge of the spherical disks is sharpened. A roller attachment is attached to the back of the unit frame, containing sequentially mounted rollers of the loosening and leveling type, an H-shaped frame, brackets and rods. Nuts and a spring are installed on each rod. The cultivating roller comprises an axis and disk cultivators mounted on the axis of the cultivating roller at equal intervals in the horizontal plane. On the periphery of the disk rippers made triangular recesses. The vertices located between the triangular recesses are also made triangular and bilaterally sharpened and directed in different directions from the geometric axis of rotation of the disk cultivators. The leveling roller contains an axis, side and intermediate disks mounted on the axis at regular intervals in the horizontal plane. On the periphery of the side and intermediate discs, triangular recesses are made. In the triangular recesses of the side and intermediate discs, rippers are also mounted so that they form a helix. The direction of the helix of the leveling roller starts from its longitudinal axis of symmetry and is directed towards the side discs. The rippers in the cross section are square and twisted along the entire length by an angle α relative to their longitudinal axis of symmetry so that the sharp edges of each ripper form helical lines. The sharp edges of the rippers are directed in different directions from the geometric axis of rotation of the leveling roller. Provides improved soil cultivation. 4 ill.

Description

The utility model relates to agricultural machinery, in particular, to tillage units for surface tillage.

Known combined tillage unit [Patent RU No. 2460265. Publ. 09/10/2012, Bull. No. 25], which includes a frame with transverse bars fixed on it, on which movable vertical racks with axles are mounted and spherical disks mounted on the axles with the possibility of rotation, having an adjustable angle of attack, rippers, transport and technological wheels are installed behind the unit.

However, the known unit has a disadvantage, which can be attributed to the unsatisfactory quality of the soil treatment, in particular, the low quality of the destruction of the soil lumps by the roller.

The technical result of the utility model is improving the quality of tillage.

The specified technical result is achieved by the fact that along the periphery of each spherical disk, recesses are made in the form of a semicircle, and the cutting edge of the spherical disks is sharpened. A roller attachment is attached to the rear part of the implement’s frame, containing sequentially mounted rollers of the loosening and leveling type, an H-shaped frame, brackets and rods. On each rod, nuts and a spring are installed. The cultivating roller contains an axle and disk cultivators. Disc rippers are mounted on the axis of the roller of the ripping type at equal intervals in the horizontal plane, and triangular recesses are made along the periphery of the disc rippers. The vertices located between the triangular recesses are also triangular and sharpened bilaterally and directed in different directions from the geometric axis of rotation of the disk cultivators. The leveling roller contains an axis, side and intermediate disks mounted on the axis at regular intervals in the horizontal plane, and rippers. On the periphery of the side and intermediate discs, triangular recesses are made. Rippers are mounted in triangular recesses of the side and intermediate discs so that they form a helical line. The direction of the helix of the leveling roller starts from its longitudinal axis of symmetry and is directed towards the side discs. The rippers in the cross section are square and twist along the entire length by an angle α relative to their longitudinal axis of symmetry so that the sharp edges of each ripper form helical lines, and the sharp edges of the rippers are directed in different directions from the geometric axis of rotation of the leveling roller.

In FIG. 1 shows a combined tillage unit, side view, in FIG. 2 - roller attachment, view A, in FIG. 3 is a cross section of a sharpened top of a disk cultivator, view B, in FIG. 4 - cultivator, type B.

The combined tillage unit includes a frame 1 on which vertical posts 2 with axles 3 are mounted and spherical discs 4 mounted on axles 3 with an adjustable angle of attack. On the periphery of each spherical disk 4, curly notches in the form of a semicircle are made, and the cutting edge of the spherical disks 4 is sharpened. On the frame 1, between the spherical disks 4, rippers 5 are installed, and behind the unit are installed transport and technological wheels 6 with hydraulic cylinders 7. In the front of the frame 1 there is a coupling 8 and support wheels 9.

The roller attachment 11 is fixed to the rear of the unit frame 1 by means of brackets 10. The roller attachment 11 contains sequentially mounted rollers of the ripper 12 and leveling type 13, an H-shaped frame 14, brackets 15 and rods 16. Nuts 17 and spring 18 are installed on each rod 16 .

The type 12 ripper roller contains an axis 19 and disk rippers 20. The disk rippers 20 are mounted on the axis 19 of the type 12 ripper roller at equal intervals in the horizontal plane, and triangular recesses 21 are made on the periphery of the disk rippers 20. The vertices 22 located between the triangular recesses 21, also made triangular and sharpened bilaterally and directed in different directions from the geometric axis of rotation of the disk rippers 20.

The leveling roller of type 13 comprises an axis 23, side 24 and intermediate 25 discs mounted on the axis 23 at regular intervals in the horizontal plane, and rippers 26. Triangular recesses are made along the periphery of the side 24 and intermediate 25 discs. Rippers 26 are mounted in triangular recesses of the side 24 and intermediate 25 discs so that they form a helix. The direction of the helix of the roller leveling 13 type begins from its longitudinal axis of symmetry and is directed towards the side 24 discs. The rippers 26 in the cross section are square and twisted along the entire length by an angle α relative to their longitudinal axis of symmetry so that the sharp edges of each ripper 26 form helical lines, and the sharp edges of the rippers 26 are directed in different directions from the geometric axis of rotation of the leveling roller 13 .

Roller attachment 11 is installed with the ability to copy the relief of the field surface and regulate the pressure on the soil surface.

Combined tillage unit operates as follows.

A pre-combined soil cultivating unit is connected to the tractor by means of a coupling 8. On the frame 1, spherical discs 4 with the required angle of attack are arranged. Subsoilers 5 are installed between the spherical disks 4. The spherical disks 4 and subsoilers 5 are adjusted to the required processing depth relative to the support wheels 9. By moving the nuts 17 along the rods 16, the compression of the springs 18 is regulated, thereby achieving the necessary pressure of the roller attachment 11 on the soil. By means of hydraulic cylinders 7, transport-technological wheels 6 are raised to a level so that the lower points of the support wheels 9 and transport-technological wheels 6 are on the same horizontal plane.

When moving the combined tillage unit, deep rippers 5 loosen the soil and destroy the plow sole. Spherical discs 4 loosen the topsoil to a depth of 8 ... 12 cm from the level of the field surface and cut weeds.

The rotating roller of the cultivator of the 12th type copies the relief of the field surface and cuts the soil lumps in the longitudinal direction (“top-down”) by the disk cultivators 20 to the required depth. At the same time, the triangular tops of 22 disk cultivators 20 are embedded in the soil to the required depth, destroy soil lumps, and contribute to high-quality loosening of the upper soil layer.

Next, a leveling roller of leveling type 13 also copies the relief of the field surface and, when rotated, by cultivators 26 intensively mulch the undisturbed soil lumps and partially moves the soil in the direction from the longitudinal axis of symmetry of the leveling type 13 roller towards 24 lateral disks. In this case, the sharp triangular tops of cultivators 26 are embedded in the soil to the required depth and contribute to high-quality loosening of the upper soil layer while leveling and compaction of the field surface, drawing moisture from the lower soil layers to the upper layers and preventing spraying of the upper humus soil layer.

After the aggregate passes through the field, the top soil layer is leveled, has a small crumbly structure, and the maximum size of the destroyed soil lumps does not exceed the minimum size of the soil lumps allowed by the agrotechnical requirements for presowing tillage. The presence of a loose and finely lumpy soil structure in the upper soil layer prevents the evaporation of moisture and the formation of cracks on the soil surface.

After the combined soil-cultivating unit passes through the field, the plow sole is destroyed, the top soil layer is compacted to the required size and has a small crumbly structure, and the maximum size of the destroyed soil lumps does not exceed the minimum size of the soil lumps allowed by the agrotechnical requirements for pre-sowing soil cultivation. The presence of a loose and finely lumpy soil structure in the upper soil layer prevents the evaporation of moisture and the formation of cracks on the soil surface.

The installation of spherical discs 4 and deep-rippers 5 on the frame 1 allows you to process the soil to the required depth with the simultaneous destruction of the plow sole.

Execution of 4 notches in the form of a semicircle along the periphery of each spherical disk 4, as well as the presence of sharpened cutting edges, allows the spherical disks 4 to penetrate into the soil and to better cut and crush the upper layer of soil with simultaneous cutting of all plant residues, including the remains of coarse plants ( stalks of sunflower and corn).

The presence of rollers of the cultivating 12 and leveling 13 type allows not only to destroy the soil lumps remaining after the passage of the working bodies 5 with high quality, to loosen the top layer of soil to the required depth, but also to evenly compact and level the top layer of soil with the specified agrotechnical parameters, to prevent evaporation moisture from the soil and the formation of cracks in the surface of the field.

The presence of the rods 16 with nuts 17 and springs 18 allows the rollers 12 and 13, when they rotate, to copy the relief of the field surface and, accordingly, evenly affect the soil.

Bilateral sharpening of the tops of 22 disk cultivators 20 allows you to qualitatively cut not only lumps of soil on the field surface, but also plant residues left after harvesting previous crops.

The installation of lateral 24 and intermediate 25 discs on the axis 23 at equal intervals in the horizontal plane eliminates the bending of the rippers 26 towards the axis 23 when they interact with hard lumps on the soil surface.

The installation of rippers 26 in the triangular recesses of the lateral 24 and intermediate 25 discs in such a way that they form a helical line allows rippers 26 to penetrate the soil smoothly and without impact, to exclude vibrations and “bounce” of the leveling roller 13.

The implementation of the rippers 26 in the cross section square and twisting them along the entire length at an angle α relative to their longitudinal axis of symmetry so that the sharp edges of each ripper 26 form helical lines, as well as the installation of rippers 26 with sharp edges in different directions from the geometric axis of rotation of the leveling roller 13 types - allows cultivators with 26 sharp edges to effectively destroy soil lumps.

The use of a combined tillage unit improves the quality of soil cultivation, improves the water regime and air conditions for the subsequent development of cultivated plants. In addition, several technological operations are performed in a single pass of a combined soil cultivating unit, which reduces soil moisture losses.

Claims (1)

Combined soil cultivating unit including a frame on which vertical racks with axles are mounted and spherical disks mounted on the axles rotatably mounted with an adjustable angle of attack, subsoilers, transport and technological wheels are installed behind the unit, characterized in that recesses are made along the periphery of each spherical disk in the form of a semicircle, and the cutting edge of the spherical disks is sharpened, a roller attachment is attached to the back of the unit frame, containing successively mounted loosening and leveling rollers, an H-shaped frame, brackets and rods, nuts and a spring are installed on each rod, the loosening roller contains the axis and disk rippers, disk rippers are mounted on the axis of the ripper type roller at equal intervals in the horizontal plane, and triangular recesses are made along the periphery of the disk rippers, the vertices located between the triangular recesses are also triangular and two-sided sharpened and directed in different directions from the geometric axis of rotation of disk rippers, the leveling roller contains an axis, side and intermediate disks mounted on the axis at regular intervals in the horizontal plane, rippers, triangular recesses are made along the periphery of the side and intermediate disks, rippers are installed in triangular the recesses of the side and intermediate disks in such a way that they form a helical line, the direction of the helical line of the leveling roller starts from its longitudinal axis of symmetry and is directed towards the side disks, and the rippers in the cross section are square and twisted along the entire length by an angle α relative to their longitudinal symmetry axis so that the sharp edges of each ripper form helical lines, and the sharp edges of the rippers are directed in different directions from the geometric axis of rotation of the leveling roller.

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