RU199422U1 - Rotary annular harrow - Google Patents

Abstract

The utility model relates to agriculture. The rotary annular harrow contains remotely located working bodies, each of which is made in the form of a ring located at an angle to the direction of movement, having the shape of a truncated cone and connected by means of spokes to the hub. The harrow axis is machined from an all-metal circle, and the working body ring consists of two rims rigidly connected to each other with an offset along the axis. Increased structural strength is provided. 1 wp f-ly, 2 dwg

Description

The utility model relates to agricultural engineering, in particular to tillage machines with rotating non-powered working bodies, and can be used for surface tillage with crumbling operations, creating a compacted soil layer at the processing depth, leveling the field surface and destroying weeds. Areas of application: in areas with slopes up to 8 °, with soil moisture of 14-25%. Its use is not recommended for the treatment of heavy alkaline, dry clayey and stony soils.

на ступице или оси в продольном направлении между осями спиц по отношению к большему диаметру D основания кольца составляет

Known tillage device (RU182865, published 09/05/2018), which contains at least one working body, made in the form of a ring located at an angle to the direction of movement, having the shape of a truncated cone and connected by means of spokes with a hub or an axis. The larger base of the ring is directed forward in the direction of travel and has a working edge 6 ... 12 mm thick, the surface of which is inclined outward from the plane of the larger base at an angle greater than 20 °. The working body, made in the form of a ring, has at least four spokes, which are semi-tangentially or tangentially connected to the hub or axis along the outer diameter and are installed in the direction of rotation of the ring, and the distance

on the hub or axle in the longitudinal direction between the axes of the spokes in relation to the larger diameter D of the base of the ring is

The closest technical solution is a tillage device (RU2402895, published on November 10, 2010), containing at least one working body made in the form of a ring located at an angle to the direction of movement, having the shape of a truncated cone and connected by means of spokes with a hub or axle , characterized in that the larger base of the ring is directed forward in the direction of travel and has a working edge 6 ÷ 12 mm thick, the surface of which is inclined outward from the plane of the larger base.

The disadvantages of the known technical solutions include insufficient strength of these structures.

The technical result consists in increasing the strength of the structure, and, consequently, in increasing its service life.

The technical result is achieved by the proposed rotary annular harrow, containing remotely located working bodies, each of which is made in the form of a ring located at an angle to the direction of movement, having the shape of a truncated cone and connected by means of spokes to the hub, and the harrow axis is machined from an all-metal circle, and the working ring the organ consists of two rims rigidly connected to each other with an offset along the axis. The width of the rims is at least 1 cm and no more than 10 cm.

The proposed utility model is illustrated by drawings, where Fig. 1 shows a roller of an annular rotary harrow, Fig. 2 - the working body of the circular rotary harrow.

In the drawings (Fig. 1-2) the following positions are taken: 1 - axis; 2 - ring, 3 - spoke, 4 - rims.

The harrow has a frame with a hinged or trailed device and other necessary elements (not shown). The rollers are connected to the frame (Fig. 1). The rollers, in turn, contain working bodies (Fig. 2), located at a distance from each other and mounted for rotation. The working bodies are fixed on a common axis 1, which has bearing supports (not shown) connected to the harrow frame. Axle 1 of the harrow is machined from an all-metal circle

The working body is a ring 2, spokes 4 connecting a tapered ring and a hub with elongated holes. made in the form of a ring located at an angle to the direction of movement. Each working body is equipped with at least 12 spokes 4. The ring 2 of the working body is obtained by connecting two rims 4 with displacement along the axis 1. The rims 4 are made of a rectangular strip.

The width of the rims is 4, i.e. their working surface (Fig. 2) should be at least 1 cm and not more than 10 cm. The working surface with such a width allows for optimal sub-surface rolling, creating an average compacted soil layer, forms an effective inflow of moisture from the compacted-loose layer into the seed placement area , ensuring a uniform distribution of seeds in depth, which guarantees uniformity of seedlings. And also eliminates the breakage of the root system during the growing season due to the movement (collapse) of soil lumps in the root layer.

This model differs from the prototype in the axis 1 (Fig. 1) turned from an all-metal circle, which significantly increases the strength of the structure and its service life. An additional rim is fixed (welded) to the ring 2 (Fig. 2), which doubles the strength of the structure. The number of spokes has been increased to 12 (Fig. 2). All of these improvements make the roller stronger and last longer.

The work of the proposed harrow is carried out as follows. While driving across the field, each ring 2, as a result of the interaction of the cutting edge with the surface of the field, penetrates the soil to the working depth and moves at this depth in the direction of the harrow movement. In this case, as a result of the action of friction forces from the side of the cultivated soil layer on the working surface of each rim 4, a torque arises, forcing the ring 2 to rotate together with the axis 1. As a result, the upper part of the weeds cut inside the upper soil layer evenly, continuously and without accumulation inside the working bodies, it is carried to the field surface by rotating knitting needles 3 and the working surface of each ring 2. The soil layer, cut by rims 4, moves along the inner surface of ring 2 and is dropped to the bottom of the furrow, and with the rotational movement of ring 2, part of the soil layer rises and thrown together with pulled out weeds on the surface of the field.

This method of soil cultivation is not only optimal for the development of the root system of plants, but also the best both in terms of moisture conservation and moisture supply of plants during the growing season.

Claims (2)

1. Rotary annular harrow, containing remotely located working bodies, each of which is made in the form of a ring located at an angle to the direction of movement, having the shape of a truncated cone and connected by means of spokes with a hub, characterized in that the axis of the harrow is machined from an all-metal circle, and the ring the working body consists of two rims rigidly connected to each other with an offset along the axis. 2. A rotary annular harrow according to claim 1, characterized in that the width of the rims is not less than 1 cm and not more than 10 cm.

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