RU107658U1 - DISC HARROW - Google Patents

Abstract

 A disk harrow containing a support frame, disk working bodies fixed to the frame using individual plate spring racks, one end of each of the racks made in the form of a semi-ellipse facing forward in the direction of rotation of the disk working body, and fixed to the frame, and the other end fixed to bearing support concave disk working body, characterized in that the bearing is located on the inner concave side of the disk working body.

Description

The utility model relates to agricultural engineering, in particular to devices for tillage with non-driven concave disc working bodies, and in particular to disk harrows.

In patents (patent of the Russian Federation for utility model No. 66881, publ. 10.10.2007, bull. No. 28, IPC AB 5/00, patent of the Russian Federation for utility model No. 68839, publ. 10.12.2007, bull. No. 34, IPC ABB 21/08) describes a disk harrow containing a support frame, disk working bodies secured to the frame using individual spring struts, with one end of each of the struts fixed to the frame and the other end fixed to the bearing support of the concave disk working body.

The disadvantage of the described devices is that the spring struts used in their design have excessive rigidity, which does not contribute to the purification of the strut and disk working bodies from organic matter (plant debris) and soil buildup. Excessive rigidity of racks of a disk working body also does not allow to provide sufficient quality of work and copying of field irregularities, including overcoming of obstacles and can lead to breakage of a strut and disk working bodies of a harrow.

Closest to the technical nature of the claimed is a disk harrow (patent of the Republic of Belarus for utility model No. 5114, publ. 02.28.2009, IPC AB01/00) containing a support frame mounted on the frame using individual plate spring struts disk working bodies, and one end of each of the racks is made in the form of a semi-ellipse facing forward in the direction of rotation of the disk working body and mounted on the frame, and the other end is fixed to the bearing support of the concave disk working body.

A disadvantage of the known disk harrow is that the bearing support and the rack mounts to the bearing support are located on the external convex side of the disk, which leads to excessive overlapping of the mid-disk space, and as a result, the harrow is clogged with organic matter (plant debris) and soil. It is also difficult to regulate the longitudinal angle of attack of the disk, since it is necessary to further regulate the relative location of the beams to which the disk posts are attached.

The utility model is based on the task of reducing the clogging of organic mass (plant residues) and soil of the rack and disk working bodies of the disk harrow during its operation, its self-cleaning, while maintaining the possibility of high-quality work of the harrow as a whole with significant irregularities of the field, with a large number of plant residues, in conditions of excessive soil moisture.

Another purpose of the utility model is to ensure compact placement of the working bodies of the disc harrow on the frame.

This object is achieved in that in the design of a disk harrow containing a supporting frame, disk working bodies are mounted on the frame using individual plate spring struts, and one end of each of the racks is made in the form of a semi-ellipse facing forward along the rotation of the disk working body and mounted on the frame and the other end is fixed to the bearing support of the concave disk working body, according to the invention, the bearing support is located on the inner concave side of the disk working body.

Due to the fact that the bearing support is located on the inner concave side of the disk working body, enough mid-disk working space is provided to allow working in fields with a large amount of organic mass and to reduce the clogging of the harrow with organic mass (plant residues) and soil. The specified location of the bearing support also allows to achieve a compact placement of the working bodies of the disc harrow on the frame.

The combination in the design of the disk harrow of the racks, one end of each of which is made in the form of a semi-ellipse facing forward along the rotation of the disk working body with the mounting of the bearing support on the inner concave side of the working body of the disk provides optimal self-cleaning of the disk working bodies of the harrow from organic matter (plant residues) when optimum rigidity of a rack for high-quality work of a disk harrow as a whole.

The utility model is illustrated by drawings, in which Fig. 1 shows a disc harrow (general view), Fig. 2 shows a stand with a disc working body (side view).

The disk harrow consists of a support frame 1 and installed in parallel rows on the frame using individual plate spring struts 2 concave disk working bodies 3. The upper end 4 of each of the posts 2 is made in the form of a semi-ellipse 5 facing forward in the direction of rotation of the concave disk working body 3 and fixed to the frame 1. The lower end 6 of each of the racks 2 is fixed to the bearing support 7 located on the inner concave side of the disk working body 3.

The device operates as follows.

When the working movement of the support frame 1 of the disk harrow, the concave disk working bodies 3 under the action of friction against the soil begin to rotate. In this case, each disk working body 3 goes deeper into the soil and performs technological operations for its processing.

In the process of soil cultivation, especially in fields with a significant clogging of weeds and high soil moisture, sticking of the disc working organs 3 by wet soil and their clogging with organic matter (plant residues) is possible.

Due to the fact that the disk harrow is equipped with individual plate spring racks 2, the upper end 4 of each of which is made in the form of a semi-ellipse 5 facing the forward concave disk working body 3, a complex oscillatory movement of the disk working bodies 3 is provided, which reduces sticking with moist soil and clogging of organic mass of disk working bodies 3.

In addition, with the translational movement of the disk harrow, low-frequency transverse vibrations of individual plate spring racks 2 and disk working bodies 3 attached to them occur, which also leads to a decrease in soil sticking and clogging of the disk working bodies 3 by organic mass (plant residues), as well as their self-cleaning.

Due to the mounting of the bearing support 7 from the inner concave side of the disk working member 3, sufficient inter-disk space is provided for the possibility of working in fields with a large amount of organic matter.

At the same time, it is possible to avoid damage to individual plate spring racks 2 and disk working bodies 3 when meeting an obstacle (for example, a stone) and to absorb shock loads on the support frame 1, since in the case of a disk working body 3 hitting an obstacle, it deviates up or to the side due to spring properties of individual plate spring struts 2, and then returns to its working position.

In general, the described design of the disk harrow allows you to ensure high quality work without clogging the disk working bodies due to their self-cleaning, protection of the bearing assembly from destruction, especially when working on the field with a large amount of organic matter (plant residues) and when working on very wet and hard ground , compact disc harrow as a whole.

Claims (1)

A disk harrow containing a support frame, disk working bodies fixed to the frame using individual plate spring racks, one end of each of the racks made in the form of a semi-ellipse facing forward in the direction of rotation of the disk working body, and mounted on the frame, and the other end fixed to bearing support concave disk working body, characterized in that the bearing is located on the inner concave side of the disk working body.