MD4378C1 - Disk tillage tool (embodiments) - Google Patents

Abstract

The invention relates to agricultural machinery industry, namely to disk tools designed for surface tillage of soil, and can be used in tillage machines and tools.The disk tillage tool, according to the first embodiment, comprises a carrier system (1), on which are installed two V-shaped beams (4) with the acute angle directed towards the rear part of the tool. On each of the beams (4), on individual racks, are mounted with the possibility of rotation and change of the angle of attack spherical and/or conical disks (5). Two disks (5), placed symmetrically about the longitudinal axis of symmetry of the tool on the beams (4), form a row. The disks (5) are directed with the convex side towards the longitudinal axis of symmetry of the tool and are mounted with shift on the beams (4) with the possibility of partial overlapping of the width of furrows tilled with the disks (5) of the preceding row with the width of furrows tilled with the disks (5) of the subsequent row.According to the second embodiment, the V-shaped beams are directed with the acute angle towards the front part of the tool. All disks are directed with the concave side towards the longitudinal axis of symmetry of the tool.

Description

The invention relates to the construction of agricultural machines, namely to the tools with disks, intended for the superficial work of the soil, and can be used in the machines and tools for working the soil.

A tool with discs for working the soil is known, which contains a frame, on which crossbars are fixed in several rows, on which vertical supports with axles at the ends are mounted, and installed on them with the possibility of rotating spherical discs, at the same time the discs are executed under an angle of attack, are inclined to the vertical plane and installed frontally on the working width in rows, in which each subsequent disc is moved in the transverse direction to the previous one towards the unworked strip of land between the discs of the first row of discs. The discs in the rows are oriented with the convex side or the concave side towards the longitudinal axis of symmetry of the tool, so that the number of discs in each row of one direction on one side of the symmetry axis is equal to the number of discs in the opposite direction of the other side of it, at the same time between the disks in the first row of the tool on the line of its longitudinal axis of symmetry, an extirpating knife is installed with a grip width equal to the interval between the middle disks in the last row [1].

This tool has good working stability. Its disadvantage lies in the fact that at small plowing depths (6...12) cm, the width of the furrows decreases from the discs, which leads to low-quality tillage due to the large fixed distance between the discs in a row, which is necessary for free passage of soil and plant debris between the discs. In addition, all discs in the first row work after the monolith (with the movement of the soil towards the monolith), the tensile strength of the tool is increased, which generates large energy losses - high fuel consumption, which increases the cost price of of the executed works and of the finished production-goods.

The technical problem that the invention solves is the reduction of the cost price of the executed works and of the finished production-goods based on the reduction of the tensile strength of the tool and the increase of the productivity of the executed works.

The tool with discs for working the soil, according to the first variant of the invention, removes the disadvantages mentioned above in that it contains a bearing system, on which two V-shaped bars are installed with the sharp angle directed towards the dorsal side of the tool, on each of the bars , on individual supports, spherical and/or conical discs are mounted with the possibility of rotating and changing the angle of attack. Two discs, placed on bars symmetrically to the longitudinal axis of symmetry of the tool, form a row. The discs are oriented with the convex part towards the longitudinal axis of symmetry of the tool, and the angle between the bars and/or the distance between the discs along the bars are selected depending on the minimum value of the angle of attack and the depth of the soil work. The discs are mounted with deflection on the bars with the possibility of partially covering the width of the furrows worked with the discs in the preceding row by the width of the furrows worked with the discs in the next row.

According to the second variant of the disc tillage tool, the V-shaped bars are pointed at a sharp angle towards the front of the tool. All discs are oriented with the concave side towards the longitudinal axis of symmetry of the tool.

Discs can be mounted with the possibility of changing their angle of inclination to vertical/horizontal.

The ends of the bars from the tip of the sharp angle can be installed on the bearing system with the help of a vertical joint with the possibility of changing the angle between the bars.

On the bearing system, on the line of the longitudinal axis of symmetry of the tool, an extirpating knife can be installed, made with the grip width that covers the distance between the disks, which are located closest to the longitudinal axis of symmetry of the tool.

On the bearing system, along the longitudinal axis of symmetry of the tool, two additional discs can be installed, oriented with their convex or concave sides towards each other with the possibility of partial and reciprocal coverage of the width of the furrows worked with the additional discs and partial coverage of the width of the furrows worked with the discs, which are located closest to the longitudinal axis of symmetry of the tool.

The discs on the first row can be executed with a smaller diameter than the diameter of the discs on the following rows, at the same time the lower edge of the discs on the first row is located at the level of the discs on the following rows.

The claimed constructive execution of tools with discs for working the soil offers the possibility of reducing their tensile strength, because only two discs symmetrical to the longitudinal axis in the first row work after the monolith (in compact soil, with the movement of the soil towards the monolith). The pairs of symmetrical discs in the following rows move, turn and break up the soil in the furrow formed by the discs in the preceding row. The discs in the following rows enter the soil more easily, because they work on the edge of the furrow, where the soil is no longer compact, having been worked by the previous discs, and easily detaches, crumbles and partially turns. Thus, the resistance to sinking into the ground of the discs is reduced, so the energy losses during the working course of the tool are reduced. All of this makes it possible to increase the speed of movement of the traction aggregate, that is, to increase the productivity of the works. The pairs of symmetrical discs in each row are at the same distance from the longitudinal axis of symmetry - from the movement axis of the agricultural aggregate, they being installed with the concave or convex sides respectively in opposite directions, they are at the same distance from the point of the trailer and the working conditions of the disks in each row are the same. The same difference in the moments of forces is created, which acts on the disks in the horizontal plane, which leads to the balancing of the sum of the moments. Such constructive execution ensures the possibility to increase the working stability of the tool, the quality of soil work and to reduce energy consumption. Also, the possibility of clogging the space between the discs in each row with plant debris is excluded, because the symmetrical discs in the row move the soil in opposite directions from the longitudinal axis of symmetry and are located at a considerable distance from each other, which increases the quality tillage. The possibility of changing the angle of inclination of the discs to vertical/horizontal offers the possibility, when the distance between the discs on each bar is fixed and the angle of attack is optimal, calculated by the tasks of the works performed and the condition of the agrotechnological background, to ensure the efficient deepening of the discs in the ground, which is most actual when angles of attack are small. When tilting the disc, raising the cut soil layer to a high height is easier, which ensures the mixing of the soil with the stubble remains, reducing the traction resistance. The possibility of changing the angle between the bars offers the possibility, when the attack angle of the discs is established, to change, depending on the characteristics of the soils to be worked, the thickness (width) along the longitudinal axis of the soil layer cut (worked) by the discs in each row. The installation on the bearing system, on the line of the longitudinal axis of symmetry of the tool, of the extirpating knife or additional discs offers the possibility of increasing the quality of soil work by removing the ridge, formed between the discs that are located closest to the longitudinal axis of symmetry of the tool. Running the discs on the first row after the course of movement of the tool with a smaller diameter than the diameter of the discs on the following rows also offers the opportunity to reduce the tensile strength of the tool, because the width of the furrow from the discs moving the soil to the monolith is reduced. At the same time, the installation of the lower edge of the discs with a smaller diameter (the discs in the first row after the course of the tool movement) at the level of the lower edge of the discs on the following rows also contributes to increasing the quality of soil work.

Thus, the use of the proposed variants ensures the possibility of reducing the cost price of the executed works and the finished goods production based on the reduction of the tensile strength of the tool, which increases the productivity of work and reduces energy resources to a high and stable soil work quality .

The invention is explained by the drawings in fig. 1-4, which represent:

- fig. 1, the top view of the tool, in which, according to the first variant, the convergence of the bars with the discs is directed in the direction opposite to the direction of movement of the tool, and the strip between the discs located closest to the longitudinal axis of symmetry of the tool is worked with the extirpating knife ;

- fig. 2, the top view of the tool, in which, according to the first variant, the strip between the discs located closest to the longitudinal axis of symmetry of the tool is worked with two additional discs, located near the longitudinal axis of symmetry of the tool;

- fig. 3, the top view of the tool, in which, according to the second variant, the convergence of the bars with the discs is directed in the direction of the tool's movement, and the strip between the discs located closest to the longitudinal axis of symmetry of the tool is worked with the extirpating knife;

- fig. 4, the top view of the tool, in which, according to the second variant, the strip between the discs located closest to the longitudinal axis of symmetry of the tool is worked with two additional discs, located near the longitudinal axis of symmetry of the tool.

The direction of movement of the tool is indicated with the big arrow, and the direction of movement of the soil with the discs of the tool is indicated with the small arrows.

The tool with discs for working the soil, according to both variants (fig. 1 and 2 - the first variant, fig. 3 and 4 - the second variant), contains the supporting system 1 executed, for example, in the form of a frame, which contains the cross member 2, the coupling device 3, through which the tool is connected to the traction aggregate. Two V-shaped bars 4 are installed on system 1, on each of them, on individual supports (not shown in the figures), discs are mounted, with the possibility of rotating and changing the angle of attack and the angle of inclination to vertical/horizontal 5 spherical and/or conical. The bisector of the angle between bars 4 represents the longitudinal axis of symmetry of the tool, which coincides with the movement axis of the tool. The discs 5 in each row are placed symmetrically with respect to the longitudinal axis of symmetry of the tool. According to the first variant, the disks 5 are oriented with the convex part towards the longitudinal axis of symmetry of the tool and the tool works laterally. According to the second variant, the discs 5 are oriented with the concave side towards the longitudinal axis of symmetry of the tool and the tool works on the tiller. To work on the strip between the discs 5, which are located closest to the longitudinal axis of symmetry of the tool, the extirpating knife 6 (fig. 1 and 3) can be installed on the bearing system on the line of the longitudinal axis of symmetry of the tool, before which, for excluding the clogging of its support with plant residues after harvesting, for example, the flat discoidal knife 7 is installed, or two additional discs 8 (fig. 2 and 4) can be installed, the supports of which are located with small eccentricity from the longitudinal axis of symmetry, which does not influence the working stability of the tool. According to the first variant, this strip is between the 5 disks in the last row, and according to the second variant, the strip is between the 5 disks in the first row. The distance between the discs 5 along the bars 4 and/or the angle between the bars 4 is selected depending on the minimum value of the angle of attack and the soil tillage depth, with the possibility of partially covering the width of the furrows worked with the discs 5 in the preceding row of the width of the furrows worked with discs 5 in the next row. This will make it possible to move the soil with the discs 5 from the second and the following rows in the open furrows with the discs 5 from the preceding rows, and to exclude mistakes during soil work, that is, to exclude unworked soil patches on the width of the strip worked with the given tool.

As mentioned above, the construction of the given tool represents only some of the possible variants and in no way limits the area of protection described in the claims of the invention. The main thing is that with the movement of the soil towards the monolith, only two discs 5 from the first row of the tool work, which substantially reduces the traction resistance and increases the productivity of the work performed and reduces the consumption of energy resources (fuel). For example, the bars 4, according to the second variant, can be fixed rigidly or with the help of the vertical joint with subsequent rigid fixing during the working period on the coupling device 3. According to the first variant, the bars 4 can also be fixed only on the device coupling 3, which will be placed in the dorsal part of the tool in the place of convergence of the bars 4, and the coupling device 3, by means of the traction construction, for example, of the stringer, located on the longitudinal axis of symmetry of the tool, joins with the agricultural traction unit. Similarly, according to the first variant, the bars 4 can be fixed rigidly or with the help of the vertical joint with subsequent rigid fixation during the working period on the crossbar 2. As can be seen, different variants of the accessible and known technical solutions can be applied to realize the invention.

The disc tiller works in the following way.

With the help of the coupling device 3, the tool is connected to the agricultural traction unit. Depending on the depth required to work and the condition of the agrotechnological background (existing plant residues, soil moisture and density, etc.), the angles of attack and the vertical/horizontal angle of inclination of the discs 5 are adjusted. During the movement of the tool forward, the first row from two discs 5 works the furrow with the movement of the soil towards the monolith. All subsequent rows of discs 5 move, turn and break up the soil layer in the furrows formed by the discs 5 in the preceding row. By changing the angle between the bars 4 to the given angle of attack of the discs 5, it is possible to change, depending on the state of the agrotechnological background, the thickness (width), along the longitudinal axis of symmetry of the tool, of each row of cut soil layer (worked) by the discs 5. The smaller the angle between the bars 4, the thinner the soil layer, i.e. the greater the coverage of the width of the furrow formed by the discs 5 in the preceding row with the furrow formed by the discs 5 in the row next, the lower the traction resistance of the tool, the fuel consumption is reduced, the speed of soil work is increased and the quality of the work performed is increased. The constructive execution of the tool excludes the clogging of the space between the discs 5 in the row and that between the discs 5 between the rows, which also increases the quality of the strip worked with the given tool. Increasing the width of the field strip, which is worked with the given tool, according to the specific agrotechnological conditions, is possible by increasing the angle between the bars 4, but respecting the condition of partially covering the width of the furrows worked with the discs 5 in the preceding row by the width of the furrows worked with the discs 5 in the next row. Widening the field strip, which is worked with the given tool, is possible with the aggregates, in which the variants of the invention will be realized. Some scheme variants of these aggregates, including with additional 4 bars (see schemes below - 2, 4, 5, 6), with the tool block according to scheme variants (5, 7), with combinations of scheme variants ( 8):

1. /\ 2. / /\ \ 3. \/ 4. \ \/ / 5. / /\/\ \ 6. / / /\ \ \ 7. \/\/\/ 8. /\ \/ /\ etc.

The use of the inventions provides the opportunity to reduce the cost price of the executed works and the finished goods production based on the reduction of the tensile strength of the tool at a high and stable soil work quality.

1. RU 2291605 C1 2007.01.20

Claims (7)

1. A disc tool for working the soil, which contains a bearing system, on which two V-shaped bars are installed with the sharp angle directed towards the dorsal side of the tool, on each of the bars, on individual supports, they are mounted with the possibility of rotation and changing the angle of attack spherical and/or conical discs, also two discs, placed on bars symmetrically with respect to the longitudinal axis of symmetry of the tool, form a row; the disks are oriented with the convex part towards the longitudinal axis of symmetry of the tool, and the angle between the bars and/or the distance between the disks along the bars are selected according to the minimum value of the angle of attack and the depth of the soil work; the discs are mounted with deflection on the bars with the possibility of partially covering the width of the furrows worked with the discs in the preceding row by the width of the furrows worked with the discs in the next row. 2. Disc tool for soil cultivation, which contains a bearing system, on which two V-shaped bars are installed with the sharp angle directed to the front of the tool, on each of the bars, on individual supports, are mounted with the possibility of rotation and changing the angle of attack spherical and/or conical discs, also two discs, placed on bars symmetrically with respect to the longitudinal axis of symmetry of the tool, form a row; the disks are oriented with the concave part towards the longitudinal axis of symmetry of the tool, and the angle between the bars and/or the distance between the disks along the bars are selected according to the minimum value of the angle of attack and the depth of the soil work; the discs are mounted with deflection on the bars with the possibility of partially covering the width of the furrows worked with the discs in the preceding row by the width of the furrows worked with the discs in the next row. Tool, according to claim 1 or 2, in which the discs are mounted with the possibility of changing their angle of inclination to vertical/horizontal. Tool, according to claim 1 or 2, in which the ends of the bars on the side of the tip of the sharp angle are installed on the bearing system by means of a vertical joint with the possibility of changing the angle between the bars. Tool, according to claim 1 or 2, in which on the bearing system, on the line of the longitudinal axis of symmetry of the tool, an extirpating knife is installed, made with the grip width that covers the distance between the discs, which are located closest to the longitudinal axis of tool symmetry. Tool, according to claim 1 or 2, in which on the bearing system, along the longitudinal axis of symmetry of the tool, two additional discs are installed, oriented with the convex or concave parts towards each other with the possibility of partially and reciprocally covering the width of the worked furrows with the additional discs and the partial coverage of the width of the furrows worked with the discs, which are located closest to the longitudinal axis of symmetry of the tool. 7. Tool, according to claim 1 or 2, in which the discs on the first row are executed with a smaller diameter than the diameter of the discs on the following rows, while the lower edge of the discs on the first row is located at the level of the discs on the following rows.