RU188565U1 - Rotary harrow - Google Patents

Abstract

The utility model relates to the field of agricultural engineering, in particular, to machines for surface tillage. The task of the proposed utility model is to create a device that allows to provide high-quality tillage while increasing its reliability in conjunction with the simplicity of the design. rotary includes a battery of pairs of disks with rigid teeth mounted coaxially on the horizontal axis. The pair of discs are connected to the frame through a curved bar, which is a spring attached rigidly to the opposite end of the frame. The working part of the tooth has the form of a drop, cut along the axis of symmetry and directed by the cut side towards possible movement, and the pointed end - towards the periphery of the disk. The tapering angle of a drop is 20 ° ≤α≤40 °, and the working part of the tooth is located at an angle of 150 ° <β <170 ° to the axis of the tooth.

Description

The proposed utility model relates to the field of agricultural engineering, in particular to machines for surface tillage.

Known needle harrow BIG-3A, which has four batteries with needle disks like rotary hoes. Batteries are mounted on the frame in two rows. The angle of attack of the batteries can be changed depending on the density of the soil in the range of 8 to 16 °. Each disc has 12 large-section needles. For surface loosening of the soil, the batteries are placed so that the needles at the entrance to the soil are located with the convex side down, and for the processing of dense soils - with the concave side.

[https://www.agrobase.ru/catalog/machinery/machinery_633076781704218750].

The disadvantage of such a harrow is insufficient copying of the field relief by the working bodies, which does not allow to loosen the soil qualitatively.

Closest to the proposed solution is a rotary harrow, described in patent US 5190112, published 03.03.1993, includes a battery of disk pairs, on horizontal axes and with rigidly fixed wedge-shaped teeth with an oblique cut with an oval surface directed in the direction opposite to the direction of movement. The pair of disks is pivotally connected through a curved rod, equipped with a spring block, with a trailed frame and located one in front of the other, each under its own furrow [US 5190112 Rotary hoe extension. - prototype].

The disadvantage of this rotary harrow is the insufficient mechanical and strength characteristics due to the hinged joints and the spring block, as well as the inaccurate copying of the complex field relief and poor-quality crumbling of the soil.

The objective of the proposed utility model is to create a device that allows for high-quality tillage while at the same time increasing its reliability in combination with the simplicity of its design.

The technical result is to improve the quality of tillage by improving the contact of the working body with the soil.

This task is achieved by the fact that the harrow-hoe rotational includes a battery of pairs of disks, with rigidly fixed teeth, mounted coaxially on the horizontal axis. The pair of discs are connected to the frame through a curved bar, which is a spring attached rigidly to the opposite end of the frame. The working part of the tooth has the shape of a drop cut along the axis of symmetry and the direction of the cut side towards a possible movement, and a pointed end to the periphery of the disk. The tapering angle of a drop is 20 ° ≤α≤40 °, and the working part of the tooth is located at an angle of 150 ° ≤β≤170 ° to the axis of the tooth.

The proposed utility model is illustrated by drawings.

FIG. 1 shows the appearance of the proposed harrow-rotary harrow; FIG. 2 is its projection, in FIG. 3 - the tooth of the proposed rotary harrow.

The rotary harrow hoe (Fig. 1) includes a battery of pairs of disks 1, with rigidly fixed teeth 2 mounted coaxially on a horizontal axis 3. The disks of pair 1 are connected to frame 4 through a curved rod 5, which is a spring attached to the opposite end of the frame 4 tough. The working part 6 of the tooth 2 (Fig. 3) has the shape of a drop cut along the axis of symmetry and the direction of the cut side to the side of movement, and the pointed end to the periphery of the disk 1. The angle of the point of the drop is 20 ° ≤α≤40 °, and the working part 6 of tooth 2 is located at an angle of 150 ° ≤β≤170 ° to the axis of the tooth 2.

When moving the proposed tillage tool across the field, the discs of a pair of 1 located coaxially and mounted on a curved rod 5, which is a spring attached to the opposite end of the frame 4 rigidly, roll over the soil surface. Teeth 2 from the contact with the soil begin to rotate, and each tooth alternately stuck into the soil to a depth of 4-8 cm, leading to the destruction of the soil crust (loosening the soil).

Due to the fact that the working part 6 of the tooth 2 is located at an angle of 150 ° ≤β≤170 ° to its axis, the tooth penetrates pointwise and almost vertically, and with further movement of the tool, the formation undermines according to the type of microexplosion, which ensures optimum soil loosening with minimal damage to cultivated plants. Moreover, by decreasing the angle β <150 °, the damageability of the roots of cultivated plants increases and the productivity of work decreases due to an increase in the downtime for cleaning the working bodies, while increasing the angle β> 170 °, the intensity of soil loosening decreases.

The working part 6 of the tooth 2, made in the form of a drop cut along the axis of symmetry and directed by the cut side to the side of movement, and the pointed end to the periphery of the disk contributes to loosening the soil, intensive destruction of the soil crust and destruction of the threadlike weed roots. The tapering angle of the droplet shape 20 ° ≤α≤40 ° facilitates the process of the penetration of tooth 2 into the soil with optimal resistance. When the value of the angle α <20 ° increases the likelihood of damage to the working part 6 of the tooth 2 in the process, and when the angle α> 40 ° hinders the penetration of the tooth into the soil.

During the operation of the implement, the curved bar 5, which is a spring, allows you to copy the field relief not only in the longitudinal plane, but also transversely on the principle of the plate torsion, and the vibrations that occur in the spring contribute to the self-cleaning of the disk pairs 1 with rigidly fixed teeth 2 from the soil and plant residues, as well as facilitate the penetration of the working part 6 of the tooth 2 into the soil.

Thus, the use of rotary harrow-hoes with a curved rod, made in the form of a spring, improves the quality of tillage and increases the productivity of work by reducing downtime for cleaning the working bodies.

Claims (1)

Harrow-hoe rotational, including a battery of pairs of disks on a horizontal axis and rigidly fixed teeth, while the pair of disks are connected through a curved rod with a frame, characterized in that the disks are aligned and mounted on a curved rod representing the spring attached to the opposite end on the frame is rigid, in addition, the working part of the tooth has the shape of a drop, cut along the axis of symmetry and the direction of the cut side towards the possible movement, and the pointed end to the periphery of the disk, and the angle is Ia drops 20 ° ≤α≤40 °, while the working part of the tooth is at an angle of 150 ° ≤β <170 ° to the axis of the tooth.

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