RU196005U1 - Disc harrow - Google Patents

Abstract

The utility model relates to agricultural machinery, and specifically to tillage implements where disk working bodies are used. The disc harrow contains a frame with a longitudinal spinal beam, to which, at an angle, on the left and right sides of the spinal beam, bars are fixed on which discs are mounted in rows on individual racks with an angle of attack and an angle of inclination to the vertical. The disks are equally directed by the convexity or concavity to the longitudinal axis of symmetry of the implement in such a way that the number of disks in each row of one direction on one side of the axis of symmetry is equal to the number of disks in the opposite direction of its other side, and each subsequent disk is shifted in the transverse direction relative to the previous one towards the unprocessed first near discs of the interdisk strip of land. The bars on which the disks are directed by the convexity to the axis of symmetry of the gun are fixed to the spinal beam at an angle less than 90 degrees, and the bars on which the disks are directed by the concavity to the axis of symmetry of the gun are fixed to the spinal beam at an angle of more than 90 degrees. Provides increased technological reliability of the soil cultivation process. 2 ill.

Description

The utility model relates to agricultural machinery, and specifically to tillage implements where disk working bodies are used.

Known disk harrow (see RF patent No. 94029780, АВВ 21/08 from 06/27/1996), containing a frame with aggregation elements, batteries with disks arranged in a symmetrical X-shaped pattern, and an additional working element with a horizontally located blade mounted on the line of symmetry of the harrow between the butt disks, reduced by twice the minimum distance between the longitudinal lines of movement of the lower points of the disks of the first and second rows, while the amount of lateral displacement of the disks of the second row in the forward and left directions x from the longitudinal axis of symmetry and the longitudinal lines harrows movement points lower discs of the first row is more than half the magnitude between the longitudinal lines move lower disc points in the series and less than its full value.

The disadvantage of this disk harrow is the low technological reliability, which is explained by the fact that the working bodies in the transverse direction are located close to each other, as well as the presence of a common axis on each individual row. Such a design during operation will lead to clogging of the inter-disk space with soil and crop residues.

Known disk tillage implement (see RF patent No. 2291605, АВВ 21/08 from 01/20/2007 - analog), containing a frame with transverse bars fixed to it in several rows, on which are mounted vertical racks with axes at the ends, and mounted on axes spherical disks can rotate, while the disks have an angle of attack, are inclined to the vertical plane and are installed frontally along the working width in rows, in which each subsequent disk is displaced in the transverse direction relative to the previous one towards the unprocessed side the bottom rows of the disks of the inter-disk strip of the soil of the earth by an amount equal to the average quotient of the division of the inter-disk distance by the number of rows. In addition, the disks in the rows are directed by the convexity or concavity to the longitudinal axis of symmetry of the implement in such a way that in each row the number of disks of one direction on its one side is equal to the number of oppositely oriented disks on its other side, and a plane cutting is installed between the disks of the first row along the axis of the implement paw with a working width equal to the interdisk space of the middle disks of the last row.

The disadvantage of a disk tillage implement is that when it is used, heterogeneity of the soil treatment is formed. The use of a flat-cutting paw reduces the technological reliability of the gun, because on waterlogged soils, rapid clogging occurs. In addition, the disks in rows are placed frontally on the transverse bars, which, as the distance between the disks in the rows decreases, leads to clogging of the inter-disk space with soil and crop residues.

Known disk harrow (see RF patent No. 94403, A01B 21/08 of 02/01/2010 - prototype), containing a frame with a longitudinal spinal beam, to which at an angle, alternately from the left and right sides of the spinal beam, bars are fixed on which discs are mounted in rows on individual racks with an angle of attack and an angle of inclination to the vertical with stepwise displacement relative to each other in the longitudinal direction, which brings together the grooves formed by the disks, and at the same time reduces the clogging of the interdisk gap.

The disadvantage of the disk harrow is the low technological reliability due to the inconsistency of the installation angles of the bars to the spinal beam with the orientation of the disks.

The technical result of the proposed utility model is to increase the technological reliability of the soil cultivation process.

The technical result is achieved by the fact that in a disk harrow containing a frame with a longitudinal spinal beam, to which, at an angle, on the left and right sides of the spinal beam, bars are mounted on which individual rows of disks are installed in rows on individual racks with an angle of incidence and an angle of inclination to the vertical. directed by the convexity or concavity to the longitudinal axis of symmetry of the implement in such a way that the number of disks in each row of the same direction on one side of the axis of symmetry is equal to the number of disks of the opposite direction side of it, and each subsequent disk is displaced in the transverse direction relative to the previous one towards the untreated first row of disks of the interdisk strip of the earth, according to the utility model, the boards on which the disks are convex to the axis of symmetry of the implement are fixed to the spine beam at an angle of less than 90 degrees, and the bars on which the disks are directed by concavity to the axis of symmetry of the guns are fixed to the spinal beam at an angle of more than 90 degrees.

The novelty of the claimed technical result is due to the fact that the coordination of the angles between the spinal beam (direction of movement) of the implement and the beams allows you to prevent the cultivation of the treated soil in areas where no tillage has been carried out, thereby reducing the clogging of the inter-disk space by reducing the volume of the cultivated soil. So, if the disks are oriented with the concave part toward the longitudinal axis of the implement (Fig. 2), then the soil is discarded to the left of the disks in the direction of movement of the implement. Moreover, if the angle of installation of the bars with the spinal beam is more than 90 degrees, then the discs located closest to the longitudinal axis of the implement begin to process the soil in the direction of the implement’s movement, thereby discarding the soil to areas that have not yet been processed. If the angle of installation of the bars with the spine beam is less than 90 degrees, then the discs located farthest from the longitudinal axis of the implement begin to process the soil in the direction of the implement’s movement, thereby preventing the soil from being thrown to unprocessed areas. The opposite picture is observed when the disks are oriented with concavity to the longitudinal axis of the implement. Thus, the coordination of the installation angles of the bars to the spine beam with the orientation of the disks will improve technological reliability. To prevent the rejection of soil from the extreme working bodies, standard protective shields or other devices can be installed in the joint zone of neighboring passages.

The essence of the utility model is illustrated by drawings, where figure 1 shows a General view of the disk harrow; figure 2 is a diagram of the discarded soil discs.

The disc harrow consists of a frame containing a spinal beam 1 and bars 2 and 3, which are fixed for disks directed by a convexity to the symmetry axis of the implement at an angle to the spine beam of less than 90 degrees, and for disks directed by a concavity to the axis of symmetry more than 90 degrees. Disks 5 are mounted in rows on bars 2 and 3 on individual racks 4 with an angle of attack and an angle of inclination to the vertical. The disks 5 are directed by the convexity or concavity to the longitudinal axis of symmetry of the implement so that the number of disks 5 in each row in the same direction on one side of the axis of symmetry it is equal to the number of disks 5 of the opposite direction of its other side, and each subsequent disk is shifted in the transverse direction relative to the previous one towards the side of the interdisk strip unprocessed by the first row of disks.

The work of the disk harrow is as follows. Before starting work, the disc harrow is aggregated with energy. Then the bars 2 and 3 and the disk working bodies 5 are adjusted in accordance with the required parameters. During the working stroke of the disk harrow, the disk working bodies 5, directed by the convexity or concavity to the longitudinal axis of the implement, cut the soil layer, crumble it, shear, partially mix and discard. By fixing the bars on which the disks are directed convex to the axis of symmetry of the implement at an angle to the spine beam of less than 90 degrees, and for disks directed by the concavity to the axis of symmetry of more than 90 degrees, soil is discarded to the already treated areas, thereby reducing the clogging of the interdisk space soil and crop residues. Thus, the proposed disc harrow ensures the achievement of a technical result.

The utility model is industrially applicable and can be implemented in a factory or other industrial enterprise.

Claims (1)

A disc harrow containing a frame with a longitudinal spinal beam, to which, at an angle, on the left and right sides of the spinal beam, bars are mounted on which discs are equally arranged in rows on individual racks with an angle of attack and an angle of inclination to the vertical, directed equally by convexity or concavity to the longitudinal axis of symmetry of the gun in such a way that the number of disks in each row of one direction on one side of the axis of symmetry is equal to the number of disks in the opposite direction of its other side, and each subsequent disk is displaced n in the transverse direction relative to the previous one towards the unprocessed first row of disks of the interdisk strip of land, characterized in that the bars on which the disks are directed convex to the axis of symmetry of the implement are fixed to the spinal beam at an angle of less than 90 degrees, and the bars on which the disks are directed by concavity to the axis of symmetry of the guns, are fixed to the spinal beam at an angle of more than 90 degrees.

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