RU194362U1 - COMBINED SOIL PROCESSING UNIT - Google Patents

Abstract

The utility model relates to the field of agricultural engineering. The combined tillage unit contains a frame with longitudinal and transverse beams on which racks with convex-concave discs with recesses mounted for rotation are fixed in pairs in rows along the entire working width. Disks are installed with the ability to control the angle of attack and deepening. The discs are staggered on the frame. The recesses are made in the form of a semicircle and are located on the periphery of the disk with equal angular pitch. Behind the disks of a convex-concave shape, a roller prefix is installed, containing sequentially mounted rollers, an H-shaped frame, brackets and rods. A nut and spring are installed on each rod. Each roller contains an axis, side and intermediate disks mounted on the axis at equal intervals in the horizontal plane, rippers. On the periphery of the side and intermediate discs, triangular recesses are made. The rippers are mounted in triangular recesses of the side and intermediate discs so that they form a helical line. The direction of the helical line of the front roller starts from its longitudinal axis of symmetry and is directed towards the side discs. The direction of the helical line of the rear roller starts from the side discs and is directed to the longitudinal axis of symmetry of the roller. The rippers in the cross section are square and twisted along the entire length by an angle a 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 axes of rotation of the rollers installed in series. EFFECT: improved quality of surface tillage. 4 ill.

Description

The utility model relates to agricultural engineering, in particular to implements for surface tillage.

Known combined tillage unit [Disk tillage unit. Patent RU No. 2313205. - Publ. December 27, 2007, Byul. No. 36], including a frame with longitudinal and transverse bars, on which racks with convex-concave disks with figured recesses mounted for rotation are fixed in pairs along the entire width of the grip, while the disks are mounted with the possibility of controlling the angle of attack and deepening.

However, the known tool has a disadvantage, which can be attributed to the unsatisfactory quality of surface tillage.

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

The specified technical result is achieved by the fact that the disks are mounted on the frame in a checkerboard pattern. The notches are made in the form of a semicircle and are located on the periphery of the disk with equal angular pitch. Behind the disks of a convex-concave shape, a roller prefix is installed, containing sequentially mounted rollers, an H-shaped frame, brackets and rods. A nut and a spring are installed on each rod. Each roller contains an axis, side and intermediate disks mounted on the axis at equal intervals in the horizontal plane, 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 helical line of the front roller starts from its longitudinal axis of symmetry and is directed towards the side discs. The direction of the helical line of the rear roller starts from the side discs and is directed to the longitudinal axis of symmetry of the roller. The rippers in the cross section are square and twist along the entire length by an angle a 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 axes of rotation of the rollers installed in series.

In FIG. 1 shows a combined tillage unit, side view, in FIG. 2 is the same, top view, in FIG. 3 - roller attachment, top view, in FIG. 4 - cultivator, type A.

The combined tillage unit comprises a frame 1, consisting of longitudinal 2 and transverse 3 bars, on which racks 4 with convex-concave disks 5 with recesses mounted for rotation are fixed in pairs in rows along the entire width of the tillage unit. Disks 5 are installed with the ability to control the angle of attack and deepening. The disks 5 are mounted on the frame 1 in a checkerboard pattern. The recesses are made in the form of a semicircle and are located on the periphery of the disk 5 with equal angular pitch.

A movable frame 6 with support wheels 7 and a hydraulic cylinder 8 is pivotally mounted on the frame 1 of the combined tillage unit. The hydraulic cylinder 8 is connected at one end to the frame 1 of the combined tillage unit and the other with the movable frame 6. Using the hydraulic cylinder 8, the combined tillage unit is transferred to a working or transport position. By means of screw pairs 9 connected to the adjusting beams 10, which are connected with the uprights 4 of the disks 5, the required angle of attack of the disks 5 is set to the direction of movement of the combined tillage unit.

Behind the disks 5, a roller prefix 11 is installed.

The roller attachment 11 contains sequentially mounted rollers 12 and 13, an H-shaped frame 14, brackets 15 and rods 16. A nut 17 and a spring 18 are installed on each rod 16. Each roller 12 and 13 contains an axis 19, side 20, 21 and intermediate 22 discs mounted on the axes 19 at equal intervals in the horizontal plane, rippers 23. On the periphery of the lateral 20, 21 and intermediate 22 discs are made triangular recesses. Rippers 23 are mounted in triangular recesses of the side 20, 21 and intermediate 22 discs in such a way that they form a helix. The direction of the helical line of the front roller 12 begins from its longitudinal axis of symmetry and is directed towards the side 20, 21 disks. The direction of the helical line of the rear roller 13 starts from the lateral 20, 21 discs and is directed to the longitudinal axis of symmetry of the roller 13. The rippers 23 in the cross section are square and twisted along the entire length by an angle a relative to their longitudinal axis of symmetry so that the sharp edges of each ripper 23 form helical lines, and the sharp edges of the rippers 23 are directed in different directions from the geometric axes of rotation of the sequentially mounted rollers 12 and 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. The pre-combined soil cultivating unit is coupled to the tractor, the disks 5 are placed on the frame 1 in a checkerboard pattern in paired rows and posts 4 connected to the frame 1. The required tillage depth is set by the disks 5 and their angles of attack. By moving the nuts 17 along the rods 16, the necessary compression of the springs 18 is established, thereby adjusting the pressure of the roller attachment 11 on the soil.

When the combined soil cultivating unit moves, the disks 5 are convex-concave in shape with curly notches made in the form of a semicircle, and located on the periphery of the disk 5 with equal angular pitch, intensively cut into the soil and loosen it with a simultaneous rotation.

During rotation, the roller 12 copies the relief of the field surface, destroys the lumps of soil with the rippers 23 and partially moves the soil in the direction from the longitudinal axis of symmetry of the roller 12 in the direction of the lateral 20 and 21 disks. In this case, the sharp triangular tops of the cultivators 23 are introduced into the soil to the required depth and contribute to high-quality loosening of the upper soil layer.

Next, the rotating roller 13 also copies the topography of the field surface and, when rotated, the cultivators 23 mulch the undisturbed soil lumps with a partial movement of the soil layer in the direction from the lateral 20 and 21 disks towards the longitudinal axis of symmetry of the roller 13.

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 soil lumps allowed by 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 disks 5 on frame 1 in a checkerboard pattern in pairs, allows you to process the soil with no blemishes (untreated strips) by overlapping disks 5 of each row.

The excavation of the disk 5 in the form of a semicircle and their location on the periphery of the disk 5 with equal angular steps, allows the disk 5 to penetrate into the soil with the least energy, and loosen the soil with the best quality.

The presence of rollers 12 and 13, containing axes 19, side 20, 21 and intermediate 22 disks and cultivators 23, allows not only to destroy the soil clumps remaining after the passage of disks 5 with high quality, to loosen the top soil layer to the required depth, but also to compact evenly and align the topsoil with the specified agrotechnical parameters.

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.

The installation of lateral 20, 21 and intermediate 22 disks on the axes 19 at equal intervals in the horizontal plane eliminates the deflection of the rippers 23 towards the axes 19 when they interact with hard lumps on the soil surface.

The installation of rippers 23 in the triangular recesses of the side 20, 21 and intermediate 22 discs in such a way that they form a helix, allows the rippers 23 to penetrate the soil smoothly and without impact, to exclude vibrations and “bouncing” of the rollers 12 and 13.

The implementation of the rippers 23 in the cross section square and twisting them along the entire length by an angle a relative to their longitudinal axis of symmetry so that the sharp edges of each ripper 23 form helical lines, as well as the installation of rippers 23 with sharp edges in different directions from the geometric axes of rotation of the rollers 12 and 13 - allows cultivators with 23 sharp edges to effectively destroy soil lumps.

The use of a combined soil cultivating unit improves the quality of tillage, 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 the tillage unit, which reduces soil moisture losses.

Claims (1)

Combined tillage unit containing a frame with longitudinal and transverse bars, on which racks with convex-concave disks with recesses mounted for rotation are fixed in pairs along the entire width of the grip, while the disks are mounted with the possibility of adjusting the angle of attack and deepening, characterized in that the disks are mounted on the frame in a staggered manner, the recesses are made in the form of a semicircle and are located on the periphery of the disk with an equal angular pitch, behind the disks of a convex-concave shape installed to an attachment attachment containing sequentially mounted rollers, an H-shaped frame, brackets and rods, a nut and a spring are installed on each rod, each roller contains an axis, side and intermediate disks mounted on the axis at regular intervals in the horizontal plane, cultivators along the periphery of the side and intermediate disks made triangular recesses, rippers are installed in triangular recesses of the side and intermediate disks in such a way that they form a helix, the direction of the helical line of the front roller starts being separated from its longitudinal axis of symmetry and directed toward the side disks, the helical line of the rear roller starts from the side disks and is directed towards the longitudinal axis of symmetry of the roller, and the rippers in the cross section are square and twisted along the entire length by an angle a 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 axes of rotation of the rollers installed in series.

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