RU2614377C1 - Disk soil-forming section - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: disk soil-forming section contains a bearing assembly with a rack and the shaft. On the shaft on one side of the bearing assembly, two needle disc set, the plane of which is perpendicular to the axis of the shaft. On the other side of the shaft, the spherical disc is fixed with cutout. The spherical disc is facing the convex sphere and a bearing assembly mounted within the plane of the blade to the shaft axis, and the maximum tilted disk portion opposite the notch located tangentially. The rear edge of the cutout has been rejected by an angle of up to 30° from radius to the point of its edges on the blade in the rotational direction. The angle of deviation of the radius of the rear edge does not exceed 20°. Between the bearing assembly and the spherical disc, the needle disk is installed. The vertical shaft section and the rotation axis of disc axis lie in one plane.

EFFECT: increase the capacity of water-detention of cut furrows, preventing the clogging of the cut disc crop residues, increased section width.

2 cl, 2 dwg

Description

The invention relates to the field of agriculture, in particular to tillage machines.

Disc harrows are known in which spherical discs mounted in a row on individual racks are tilted horizontally and turned concave in the direction of travel (ed. Certificate. 2292695).

A disadvantage of the known harrows is the complexity of their design due to the presence of the bearing assembly and stand for each disk.

Known multi-disc sections of the harrow with two racks, containing two discs at each end of the shaft sections from the outer sides of the bearing units (ed. Certificate. No. 2195091).

Multi-disc sections mounted in one line at an angle of attack increase the length of the machine. When they are placed in a row on the transverse beams of the frame, in addition, the displacement of adjacent sections along the length of the machine is required to prevent soil unloading in strips placed between the disks facing one another in the concavity of the sphere, and ridges are formed in the strips between the sections. When adjacent sections are installed, the bulge of the disks to one another in the strips between them forms a furrow.

Known three-disk sections containing two needle discs on one side of the bearing assembly and a spherical disc with a notch facing the concavity of the sphere outward, on the other hand (US Pat. RF No. 2427119 A01B 21/08 - prototype). The plane in which the blade of the disc is placed is perpendicular to the axis of the shaft carrying the disc. Sections that are turned in one direction by the concavity of the disks and installed in a row can work without clogging, since the soil discarded by the spherical disk of one section does not fall under the other. The harrow with such sections performs anti-erosion treatment: strips treated with needle discs retain stubble and prevent deflation, and intermittent furrows created by cut-out discs retain water, prevent runoff and erosion.

A disadvantage of the known sections is that because of the presence of needle-shaped disks in it, an angle of attack of more than 20 ° is not recommended for them, but it is advisable for spherical ones since this increases the capacity of the furrows and improves the depth of the section when processing dense soil.

Increasing the width of the sections is relevant to reduce the number of bearing assemblies and racks on the machine. However, to ensure operation without clogging the sections mounted in a row, their working width should be such that, at the maximum angle of attack, the soil discarded by the front disk of one section does not fit in front of the rear disk of the neighboring section, but falls into the strip between the sections, and with a minimum angle of attack, the distance between adjacent disks was not less than half the width of the gap between the disks of the section. With longitudinal vibrations (deviation back) of the section set with the angle of attack, the change in the depth of the front and rear discs should not exceed an agrotechnically acceptable value, therefore the width of the section with one rack is limited. When a disc leaves the soil with a cutout symmetrical with respect to its radius, a wet plant residue may hang over one of the edges of the disc and clog the cutout.

An object of the invention is to increase the capacity of water-retaining grooves cut by a disk section performing anti-erosion treatment with alternating strips with preserved plant residues and intermittent grooves, preventing clogging of the disk cut-out by plant residues, increasing the section width. A section with one bearing assembly and an adjustable angle of attack at its extreme values should work stably when installed with the same in one row, including behind the plane-cutting legs.

The technical problem is solved in that in the section of the soil tillage containing the bearing assembly with a stand and shaft, on which two needle discs are installed on one side of the bearing assembly, the plane of which is perpendicular to the axis of the shaft, and on the other hand, a spherical disk with a notch, facing the convexity of the sphere, is fixed to the bearing assembly, according to the invention, the cut-out disk is mounted with the blade plane inclined to the axis of the shaft, the part of the disk opposite to the cutout located tangentially inclined to the maximum but, at the same time, the back edge of the notch is deflected by an angle of up to 30 ° from the radius to the point of its edge on the blade in the direction of rotation, greater than the angle of deviation from the radius of the back edge, not exceeding 20 °.

In addition, a needle disk is installed between the bearing assembly and the spherical disk, and the vertical axis of rotation of the section and the axis of the shaft with the disks are in the same plane.

The invention is illustrated by drawings.

In FIG. 1 shows a section of disk tillage - rear view, side view; in FIG. 2 - location of the cutout on a spherical disk.

The soil cultivating disk section contains a spherical disk 3 with a cutout, needle 4 on one side of the bearing assembly 5 and two of the same needle disk 4 on its other side, mounted on a shaft 1 and compressed by nuts 2. Disks 3 and 4 on the shaft are fixed motionless and at the ends of the shaft are separated by bobbins 6 and 7 of different lengths. The plane of the needle disks 4 is perpendicular to the axis of the shaft 1, and the spherical disk 3 is mounted on the shaft 1 with an inclination of the plane of the blade to this axis by an angle of up to 20 °, and the part of the disk 3 opposite the cut is inclined to the maximum. To fix the disk 3 in an inclined position, the end face of the bobbin 6 and the plane of the washer, between which the disk 3 is placed, are made with an inclination to their longitudinal axes. The cutout of the disk 3 is placed tangentially to a depth of b = 0.45 ... 0.7R, where R is the radius of the disk, and covers the arc of the central angle β = 45 ... 70 ° on the blade. During operation, its rear edge 8 is deflected by an angle τ≤30 ° from the radius to the point of the rib on the blade in the direction of rotation, and the rear 9 by an angle ε≤20 °.

A strut 10 is mounted on the bearing assembly 5 (it can be rigid, spring or spring loaded) with a shaft 11 for mounting it on the machine frame and a lead 12 mounted on the shaft 11 to rotate the section relative to the axis of the shaft when adjusting its angle of attack. The axis of the shafts 1 and 11 are located in the same plane, which ensures a minimum change in the inter-track when adjusting the angle of attack of the section.

The spherical disk 3 is made with a toothed cutting edge and with a diameter D larger than the diameter d of the needle discs 4.

Needle discs 4 are mounted in sections with the possibility of the needles entering the soil with the convex side of their arcs.

During the work of the tillage section, the needle discs 4 loosen the soil to a depth of 8 ... 12 cm, while maintaining soil-protective plant debris on the field surface. Spherical disk 3 cuts them, creates a water-retaining furrow with a depth of 10 ... 16 cm with jumpers, crumbles a strip of soil and throws it outside the furrow. A cut-out disc 3 mounted with a slope of the solid sector to the axis cuts a wider furrow than a disc with the same angle of attack without tilting. The depth of the disk is improved due to the larger downward reaction of the soil on the inner surface of the sphere. In the zone of the lintel, the furrow is narrowed, since the areas of the spherical disk located near the cutout enter the soil almost vertically. At the same time, the reliability of the jumper increases. The notch, located tangentially, provides a close to vertical position of the rear rib 8 when it leaves the soil. Therefore, the overhang of plant residues on it is excluded.

The implementation of the section with two disks at each end of the shaft can reduce the number of racks and bearing units on the machine by at least a quarter. The proposed disk sections can be installed in several rows on the erosion control harrow or in one or two rows at the back or in front of the plane-cutting paws of the combined unit.

The application of the proposed disk section will increase the capacity of water-retaining cut grooves, prevent clogging of the disk cutout with plant residues, increase the width of the section.

Claims (2)

1. A soil cultivating disk section containing a bearing assembly with a stand and a shaft, on which two needle discs are installed on one side of the bearing assembly, the plane of which is perpendicular to the axis of the shaft, and on the other hand a spherical disk with a notch fixed, convex to the bearing assembly, differs the fact that the cut-out disk is mounted with the blade plane inclined to the axis of the shaft, the part of the disk being opposite to the cutout located tangentially, with the back edge of the cut-out being maximally inclined Neno to an angle of 30 ° from the radius to the point of its edges on the blade in the direction of rotation, greater than the angle of deviation from the rear edge radius not exceeding 20 °. 2. The soil cultivating disk section according to claim 1, characterized in that a needle disk is installed between the bearing assembly and the spherical disk, and the vertical axis of rotation of the section and the axis of the shaft with the disks are in the same plane.

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