RU2793348C1 - Soil-cultivating roller - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: soil-cultivating roller contains hollow cylinder (1) provided with axle (2), mounted on frame (3) with the possibility of rotation. Holders (4) are installed on frame (3), on which two additional axles (5) connected by chain transmission (6, 7 and 8) are installed parallel to axis (2) and symmetrically relative to it with the possibility of rotation, equipped with debalancers installed with the possibility of changing the position of their centre of gravity relative to additional axis (8) and positions along its length, as well as fixing in a given position. Wheels (10, 11) are installed on opposite sides of additional axles (5), which have different diameters on different additional axles (5), but same diameter on each of additional axles (5). Wheels (10, 11) are in contact with the outer surface of the upper part of hollow cylinder (1). The ratio of the diameters of wheels (10, 11) mounted on different additional axles (5) is proportional to the ratio of the number of blades of corresponding sprockets (6, 7).

EFFECT: improved quality of soil rolling and braking of soil clods.

1 cl, 2 dwg

Description

The invention relates to agricultural engineering, in particular, to tools for rolling the soil.

Known tillage roller [Khalansky V.M., Gorbachev I.V. Agreecultural machines. Agreecultural equipment. - M.: Kolos, 2004, p. 86-87], which is a hollow cylinder equipped with an axle and mounted on a frame with the possibility of rotation. To clean the hollow cylinder from adhering soil, the tillage roller is equipped with scrapers pressed against the surface of the hollow cylinder by springs. However, the well-known roller has disadvantages, which include insufficient quality of soil compaction and crumbling of soil clods.

The technical result achieved in the creation of the invention is to improve the quality of soil compaction and crumbling of soil clods.

The technical result is achieved by the fact that holders are installed on the frame. Two additional axles are installed on the holders parallel to the axis and symmetrically relative to it with the possibility of rotation, which are connected by a chain transmission. Additional axles are provided with unbalancers, which are installed with the possibility of changing the position of their center of gravity relative to the additional axle and position along its length, as well as fixing in a given position. On opposite sides of the additional axles, wheels are installed that have a different diameter on different additional axles, but one diameter on each of the additional axles. The wheels are made in contact with the outer surface of the upper part of the hollow cylinder. The ratio of the diameters of the wheels mounted on different additional axles is taken proportional to the ratio of the number of teeth of the corresponding sprockets.

In FIG. 1 shows a general view of the tool for rolling the soil, in Fig. 2 - the same, top view.

The tillage roller contains a hollow cylinder 1, equipped with an axle 2 and mounted on a frame 3 for rotation. Holders 4 are mounted on the frame 3. On the holders 4, parallel to the axis 2 and symmetrically relative to it, two additional axles 5 connected by a chain transmission are installed with the possibility of rotation. installed with the possibility of changing the position of its center of gravity relative to the additional axis 5 and the position along its length, as well as fixing in a predetermined position. On opposite sides of the additional axles 5, wheels 10 and 11 are installed, which have a different diameter on different additional axles 5, but one diameter on each of the additional axles 5. The wheels 10 and 11 are in contact with the outer surface of the upper part of the hollow cylinder 1. The ratio of the diameters of the wheels 10 and 11, installed on different additional axles 5, in proportion to the ratio of the number of teeth of the corresponding sprockets 6 and 7.

The tillage roller works as follows. Preliminarily, taking into account the type of soil and the quality of its previous processing, the unbalancers 9 are set to the required position by adjusting the position of their center of gravity relative to the additional axis 5, as well as their position along the length of the additional axis 5, after which the unbalancers 9 are fixed in a given position. After the start of the movement of the tillage roller, the hollow cylinder 1 begins to rotate, compacting the soil and crushing the soil clods. Contacting with the outer surface of the hollow cylinder 1 and installed on opposite sides of the additional axles 5, the wheels 10 and 11 begin to rotate, causing rotation of the additional axles 5, which are installed parallel to the axis 2 and symmetrically relative to it on the holders 4. Together with the additional axles 5, they begin to rotate and unbalancers 9 installed on them. Due to the connection of additional axles 5 by a chain transmission with a proportional ratio of the number of teeth of sprockets 6 and 7 to the ratio of the diameters of the wheels 10 and 11, a change in the initial position of the unbalancers 9 installed on one additional axle 5 relative to the position of the unbalancers 9 installed on the other is excluded additional axle 5, which in the absence of chain transmission inevitably occurs due to slippage of wheels 10 and 11 along the outer surface of the upper part of the hollow cylinder 1. In addition, due to the different number of teeth of the sprockets 6 and 7 and the different diameters of the wheels 10 and 11, the unbalancers 9 installed on different additional axes 5, rotate with different frequency. As a result, additional multidirectional periodic forces of dynamic impact on the soil arise, which also differ in magnitude. This leads to the intensification of the crumbling of soil clods, its high-quality compaction, which creates the optimal density of the soil with a slight deviation of this parameter in terms of the volume of the surface layer, which at the same time fits into the boundaries of agrotechnical requirements.

Thus, due to the presence of two additional axles 5 with unbalancers 9 receiving rotation from the wheels 10 and 11, periodic multidirectional oscillations appear that are transmitted to the entire structure of the tillage roller (an oscillating soil rolling mode occurs), which improves the quality of soil rolling and crumbling of soil clods.

Therefore, installation on the frame of holders, installation on them parallel to the axis and symmetrically relative to it with the possibility of rotation of two additional axles, connection of additional axles by chain transmission, supply of additional axles with unbalancers with the possibility of changing the position of their center of gravity relative to additional axles, position along their length and fixing in a given position, installing additional axles of wheels of different diameters on opposite sides, in contact with the outer surface of the upper part of the upper part of the hollow cylinder and making the ratio of the diameters of the wheels installed on different additional axles proportional to the ratio of the number of teeth of the corresponding sprockets improves the quality of soil compaction and crumbling of soil clods .

Claims (1)

A soil-cultivating roller, which is a hollow cylinder equipped with an axle and mounted on a frame with the possibility of rotation, characterized in that holders are installed on the frame, on which two additional axles connected by a chain transmission are installed parallel to the axis and symmetrically relative to it with the possibility of rotation, equipped with unbalancers installed with the possibility of changing the position of its center of gravity relative to the additional axle and position along its length, as well as fixing in a given position, while wheels are installed on opposite sides of the additional axles, which have a different diameter on different additional axles, but one diameter on each of the additional axles , the wheels are in contact with the outer surface of the upper part of the hollow cylinder, and the ratio of the diameters of the wheels mounted on different additional axles is proportional to the ratio of the number of teeth of the corresponding sprockets.

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