RU2802261C1 - Disc harrow - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: invention relates to tillage tools, which use disk working bodies. The disc harrow includes towing device 1, frame 2 with transverse bars 3 fixed on it, on which disc working bodies 4 and 5 are mounted on autonomous racks in frontal rows along the width of the grip, having an angle of attack and inclined to the vertical plane. The rows are symmetrically oriented by convexity or concavity to the longitudinal axis of the harrow. Each subsequent disk 4 and 5 is displaced in the transverse direction relative to the previous one, with the formation of a paired row, in such a way that it shifts the soil into the furrow of the previous one. Discs 4 and 5 symmetrical about the longitudinal axis of the harrow are located at the same distance from it. The disks 5 of each front row closest to the longitudinal axis of the harrow are installed in such a way that on the first and second bars 3 disks 5 are oriented with their concave or convex sides, respectively, in opposite directions, and in the subsequent adjacent paired rows, disks 5 are installed respectively opposite to disks 5 of the first pair row. In the front rows, disks 5 are oriented with the possibility of excluding their opposite orientation, and their total torque is determined by the ratio: R” _l2 l _cl2 + R” _{l 31} l _{cl 31} + R” _{l 32} l _{cl 32} = R” _p1 l _{c p1} + R” _p41 l _{c p41} + R” _p42 l _{c p42} , where R” _l2 , R” _{l 31} , R” _{l 32} , R” _p1 , R” _p41 , R” _p42 is the horizontal component of the forces acting on the disks in the horizontal plane; l _cl2 , l _{cl 31} , l _{cl 32} , l _{c p1} , l _{c p41} , l _{c p42} is the shoulder of the corresponding force.

EFFECT: increase in the uniformity of soil cultivation.

1 cl, 3 dwg

Description

The invention relates to agricultural engineering, and specifically to tillage tools, which use disk working bodies.

The stability of the movement of agricultural units largely determines the quality of the implementation of technological processes. The most common and of particular importance is the stability of machines and tools in the horizontal plane. Not only the level, but also the stability of the quality of the implementation of agrotechnical indicators depends on the stability of the movement [Trubilin E.I. Equilibrium of disk harrows and cultivators in the horizontal plane. Proceedings of the Kuban State Agrarian University, No. 1 (40) pp. 166-170].

The efficiency of rotary discs largely depends on their placement on the frame, especially on multi-row disc implements: if the distance between the discs is insufficient, the probability of wedging between them of the layer and individual blocks of soil increases, and an increase in this distance negatively affects the quality of tillage (low quality of crumbling soil, high ridges of the bottom of the furrow, incomplete cutting of weeds, the appearance of flaws). When choosing a technological scheme, it is necessary to take into account the fact that when tilling the soil towards an open furrow, the width b of the cultivated strip increases to 30-70% [Trubilin E.I. et al. Improving the technological efficiency of disc harrows. Rural machine operator, No. 3, 2013, pp. 166-170].

Known disk tillage tool (see RF patent No. 2402894, A01V 21/08 dated 11/10/2009) containing a towing device, a frame on which symmetrical rows radiating from the longitudinal axis of symmetry of the tool, spherical disks are installed on autonomous racks having an angle of attack and the angle of inclination to the vertical plane, while the disks are installed in rows so that each subsequent disk in the longitudinal direction is displaced relative to the previous one in such a way that it shifts the soil into the furrow of the previous disk. In this case, one part of the disks of symmetrical rows shifts the soil towards the tool axis, and the other part away from the axis. A strip of soil, uncultivated by symmetrical discs in the center of the tool, is processed by additional discs installed along the longitudinal axis of the tool.

The disadvantage of such a tillage implement is that during operation, additional disks in the center of the implement and (or) disks of symmetrical rows mounted on the same beam and turned by the concave part towards the center are very close together and will clog and jam, which will lead to a decrease in the technological reliability of the processing process. soil. In addition, discs of symmetrical rows are installed on beams with different orientations, concave or convex part, which reduces the effect of working towards the open furrow, thereby increasing the energy intensity of tillage.

Known disk tillage tool (see patent of the Russian Federation No. 2387116, A01V 21/08 dated 04/27/2010 - analog) containing a frame with an even number of transverse bars located on it, on which vertical knee-shaped racks with axles at the ends are mounted in a row, in bushings and spherical disks mounted on them at an angle to the horizon with the possibility of rotation and synchronous change of the angle of attack, while the disks in the rows are directed by their concave and convex side relative to the vertical plane passing through the longitudinal axis of symmetry of the tool frame and the point of its trailer so that in each row on both sides of it, an equal number of oppositely oriented and equally spaced disks is installed, displaced in each subsequent row, while the distance in the rows between the middle differently directed disks is equal to the distance between identically oriented disks, and the closest to the frame passing through the longitudinal axis of symmetry tools and the point of its trailer plane, multidirectional disks in different rows are located symmetrically relative to it at a distance equal to a / 2n, where a is the inter-disk distance in a row, n is the number of rows of working bodies.

The disadvantage of such a tillage tool is that directional stability is violated during operation, as well as high energy consumption, due to the arrangement of part of the disks without shifting the soil to the side of the open furrow from the previous one.

As you know, in order to maintain directional stability, it is necessary to achieve equality of moments relative to the turning point, which is the point of the harrow trailer (Sineokov G.N., Panov I.M., Theory and calculation of tillage machines. M., Mashinostroenie, 1977). The scheme for determining the equilibrium condition of the analogue is shown in figure 2, and this condition will have the following form:

Where , , , , , , , - horizontal component of forces acting on the disk in the horizontal plane;

, , , , , , , - the shoulder of the corresponding force.

The figure 2 shows the moments arising second from the longitudinal axis of the tool in multidirectional disks, however, this does not change the mechanism of interaction for the entire tool. It can be seen from Figure 2 that:

Accordingly, even with the same values of the force R'', the equality of the moments of the left and right sides of the tool cannot be achieved, which is due to the non-symmetrical arrangement of differently directed disks relative to the longitudinal axis of the tool, and the farther a pair of symmetrical disks is from the longitudinal axis of the tool, the greater the difference will be characterized by these moments. In addition, when working towards the monolith, the traction resistance is higher than when working towards the open furrow, which will create an even greater unbalanced moment, and for high-quality processing, the disks will have to be brought together, which will lead to an increase in the energy intensity of the process.

Known disk tillage tool (see patent of the Russian Federation No. 2291605, A01V 21/08 dated 20.01.2007 - prototype), containing a towing device, a frame with transverse bars fixed on it, on which frontal rows along the width of the grip are mounted on autonomous racks of disk working bodies , having an angle of attack and inclined to the vertical plane, while the rows are symmetrically oriented by convexity or concavity to the longitudinal axis of the tool, and each subsequent disk is displaced in the transverse direction relative to the previous one, with the formation of a paired row, in such a way that it shifts the soil into the furrow of the previous one, except In addition, the total number of disks in each row of one direction on one side of the axis is symmetrically equal to the number of disks of the opposite direction of its other side, and between the disks of the first row of the tool along the line of its longitudinal axis of symmetry, a flat-cutting paw is installed with a grip width equal to the inter-disk gap of the middle disks of the last row.

The disadvantage of this design is that when it is used along the axis of symmetry of the tool, a wide furrow is formed, as well as heterogeneity in tillage. The use of a flat-cutting paw reduces the technological reliability of the tool, because on waterlogged and wet soils, rapid clogging occurs.

The technical result of the invention is to increase the technological reliability and uniformity of the tillage process, while maintaining directional stability and energy intensity.

The technical result is achieved by the fact that in a disc harrow containing a towing device, a frame with transverse bars fixed on it, on which disc working bodies are installed on autonomous racks in frontal rows along the width of capture, having an angle of attack and inclined to a vertical plane, while the rows are symmetrically oriented by convexity or concavity to the longitudinal axis of the harrow, and each subsequent disk is displaced in the transverse direction relative to the previous one, with the formation of a paired row, in such a way that it shifts the soil into the furrow of the previous one, according to the invention, the disks symmetrical with respect to the longitudinal axis of the harrow are located at equal distances from it , the disks of each front row closest to the longitudinal axis of the harrow are installed in such a way that on the first and second bars the disks are oriented with their concave or convex sides, respectively, in opposite directions, and in the next adjacent paired rows, the disks are installed respectively opposite to the disks of the first paired row, while in In the frontal rows, the disks are oriented with the possibility of excluding their opposite orientation, and in order to maintain directional stability, their total torque is determined by the ratio:

Where , , , , , - horizontal component of forces acting on the disk in the horizontal plane;

, , , , , - the shoulder of the corresponding force. The novelty of the claimed technical result is due to the fact that in the disc harrow the soil is cultivated only with discs, which will give it uniformity. The absence of disks mounted on one beam, brought together and turned by a concave part to the center, will prevent them from clogging and jamming with soil, thereby increasing the technological reliability of the tillage process. In the proposed invention (figure 3) the equilibrium condition will be described by the same expression (2). However, the arrangement of multidirectional disks relative to the longitudinal axis of the harrow is symmetrical, which allows us to conclude that the moments created on the left and right relative to the turning point of the harrow are balanced due to the equality of the forces and shoulders of their action on any beam and for any pair of symmetrical disks relative to the longitudinal axis of the harrow. Thus, for equilibrium, it is necessary to fulfill condition (3), which includes only the moments from the disks closest to the longitudinal axis of the harrow. There are various ways to balance the left-hand and right-hand moments from the disks closest to the longitudinal axis of the harrow, for example, change the distance between the front rows or set a different angle of attack. However, in this case, the equilibrium condition will not go beyond relation (3), and the greater the width of the grip of the harrow, the less influence will be exerted by the interaction between the discs closest to the longitudinal axis of the harrow. In addition, relation (3) is applicable for 2- and 3-row frontal arrangement of disk working bodies. In these cases, in relation (3), it is necessary to take the corresponding terms equal to zero, and use all the cooled parts without change.

The essence of the invention is illustrated by drawings, where figure 1 shows a general view of the disc harrow, figure 2 is a diagram for determining the equilibrium condition of the analogue, figure 3 is a diagram for determining the equilibrium condition of the invention.

A disc harrow consists of a towing device 1, a frame 2 with transverse bars 3 fixed on it. On the transverse bars 3, in frontal rows along the width of the grip, disc working bodies 4 and 5 are installed on autonomous racks (not shown in the figure). Disc working bodies 4 and 5 have angles of attack and are inclined to the vertical plane. The rows of disk working bodies 4 and 5 are symmetrically oriented by convexity or concavity to the longitudinal axis of the harrow, and each subsequent disk is displaced in the transverse direction relative to the previous one, with the formation of a paired row, in such a way that it shifts the soil into the furrow of the previous one. To maintain the directional stability of the harrow, disks 4 and 5, symmetrical about its longitudinal axis, are located at equal distances from it. To increase the technological reliability of the process of tillage with a disc harrow, the disks 5 closest to its longitudinal axis of each front row are installed in such a way that on the first and second bars 3 the disks 5 are oriented with their concave or convex sides, respectively, in opposite directions, and in the next adjacent paired rows, the disks 5 installed respectively opposite to the disks 5 of the first pair row, while in the front rows the disks 5 are oriented with the possibility of excluding their opposite orientation, and to maintain directional stability, their total torque is determined by the ratio:

Where , , , , , - horizontal component of forces acting on the disk in the horizontal plane;

, , , , , - the shoulder of the corresponding force.

The work of the disc harrow is carried out as follows. Before starting work, the disc harrow is aggregated with a power tool using a hitch 1. Then the disc working bodies 4 and 5 are adjusted in accordance with the required parameters. During the working stroke of the disc harrow, the working bodies 4 and 5, symmetrically directed by convexity or concavity to its longitudinal axis, cut the soil layer, crumble it, shift it, partially mix it and discard it. Due to the same arrangement of disks 4 and 5 symmetrical about the longitudinal axis of the harrow and the total torque from the disks 5 closest to its longitudinal axis of each front row, determined by the ratio:

Where , , , , , - horizontal component of forces acting on the disk in the horizontal plane;

, , , , , - the shoulder of the corresponding force.

during the operation of the disc harrow, directional stability is maintained. At the same time, the displacement of each subsequent disk 4 and 5 in the transverse direction relative to the previous one in such a way that it shifts the soil into the furrow of the previous one allows you to save the amount of energy intensity of tillage. Since the disks 5 closest to the longitudinal axis of the harrow of each front row are installed in such a way that on the first and second bars 3 the disks 5 are oriented with their concave or convex sides, respectively, in opposite directions, and in the next adjacent paired rows, the disks 5 are installed respectively opposite to the disks 5 of the first pair a row, while in the front rows the disks 5 are oriented with the possibility of excluding their opposite orientation, this will avoid their clogging and jamming, thereby ensuring the achievement of the withered technical result.

The invention is industrially applicable and can be implemented in a factory or other industrial enterprise.

Claims (4)

A disc harrow comprising a towing device, a frame with transverse bars fixed on it, on which disc working bodies are mounted on autonomous racks in frontal rows along the width of capture, having an angle of attack and inclined to a vertical plane, while the rows are symmetrically oriented by convexity or concavity to the longitudinal axis harrows, and each subsequent disk is displaced in the transverse direction relative to the previous one, with the formation of a paired row, in such a way that it shifts the soil into the furrow of the previous one, characterized in that the disks symmetrical with respect to the longitudinal axis of the harrow are located at the same distances from it, closest to the longitudinal axis of the harrow the discs of each front row are installed in such a way that on the first and second bars the discs are oriented with their concave or convex sides, respectively, in opposite directions, and in the next adjacent paired rows, the discs are mounted respectively opposite to the discs of the first pair row, while in the front rows, the discs are oriented with the possibility eliminating their opposite orientation, and to maintain directional stability, their total torque is determined by the ratio: Where , , , , , - horizontal component of forces acting on the disk in the horizontal plane; , , , , , - the shoulder of the corresponding force.

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