RU221345U1 - SOIL TILLAGE WORKING ORGAN - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to working bodies for processing old arable, fallow and after harvesting of perennial grasses lands on the plain and on slopes using the moldboard method with the formation turning in its own furrow.

In a soil-cultivating working tool, including a stand, a shoe to which a chisel is attached, plowshares, left- and right-turning blades with a continuous working surface, the front edges of which are docked with the upper edge of the right and left plowshares, the right and left plowshares are also attached to the shoe, to ensure rotation of the formation by 180° in its own furrow without its deformation and mixing of soil layers, the dumps are made of a cylindrical shape and are installed with the rear part of the furrow edge of the blade raised from the bottom of the furrow by an amount equal to the maximum depth of tillage, to ensure full rotation of the formation when moving along the surface of the dump , on the right and left sides of the working body, plow knives are attached to the shoe, rigidly connected to the plows with a width equal to the maximum tillage depth, and the plows in the lower part are rigidly connected to the furrow edge of the blade and have a variable helical surface shape with a 180° rotation of the plow surface , which ensures that as the formation rotates when moving along the surface of the dump, the formation is perpendicular to its surface and maintains the distance from the surface of the dump to the plunger equal to the width of the formation until its full rotation of 180°.

Thus, the soil-cultivating working body makes it possible to complete a full revolution of the layer without deforming it in order to ensure the incorporation of weed seeds into the lower horizon without mixing them, which ultimately reduces the weediness of fields and increases the yield of cultivated crops.

Description

The utility model relates to agricultural engineering, in particular to working bodies for processing old arable, fallow and after harvesting of perennial grasses lands on the plain and on slopes using the moldboard method with the formation turning in its own furrow.

There are various types of working bodies for moldboard and non-moldboard tillage with crumblers and subsoilers, which are designed for intensive soil crumbling when cultivating dry loamy and clayey soils, as well as plow bodies with a screw working surface for a full rotation of the formation into the adjacent open furrow (M.Z Zimmerman: Working bodies of soil-cultivating machines. M: Mechanical Engineering. 1976. - 294 p.)

The disadvantage of such working bodies is the mixing of different layers of soil when they are moved to the adjacent open furrow. At the same time, during dump cultivation of soils infested with weeds, weed seeds are mixed with the soil and are not completely incorporated into the soil, which leads to their proliferation.

Known working bodies for smooth plowing with rotation of the formation in its own furrow by 180° (author St. No. 1644729 A1, MPK A01B 3/36, No. 1492499 A1, MPK A01B 3/56, 49/02, as well as patent No. 2587571 C1 , MPK A01B 35/20), consisting of dumps and ploughs, which are attached to the rack of the working body or to the frame of the implement.

The disadvantage of these working bodies, despite performing a 180° rotation of the formation, is crumbling of the soil and mixing of soil layers with weed seeds, which leads to their proliferation.

The closest device to the claimed soil-cultivating working tool is a universal combined soil-cultivating working tool (utility model patent No. 183570 U1, IPC A01B 35/20. Published 09.26.2018, Bulletin No. 27), including a stand, a shoe to which a chisel is attached, plowshares, left- and right-turning blades with a solid or slatted working surface, the front edges of which are joined to the upper edge of the left and right plowshares, the right and left plowshares are attached to the shoe, located at the level of the bottom of the furrow, and the parameters of the blade and plowshares are adjusted depending on the conditions work and rotates the formation 180° with crumbling and mixing of soil layers.

The disadvantage of the known working body is the crumbling and mixing of soil layers when they move along the surfaces of the dump and plow along with weed seeds, which leads to incomplete embedding of weed seeds in the lower layers of soil and does not ensure complete destruction of weed seeds when processing weedy fields, which occurs during prolonged crop rotation (7-9 fields) with minimal and zero technologies for cultivating crops.

The problem to be solved by the claimed technical solution is to enable the working body to carry out moldboard tillage with the formation rotation in its own furrow by 180° without deformation and movement of the formation layers, leaving weed seeds on the surface layer of soil for their complete embedding during formation rotation into the soil for a long period.

This task is accomplished by the fact that on the soil-cultivating working body, which includes a stand, a shoe, to which a chisel, plowshares, left- and right-turning blades with a continuous working surface are attached, the front edges of which are docked with the upper edge of the right and left plowshares, and the right one is also attached to the shoe. and the left plow, in contrast to the prototype, to ensure a 180° rotation of the formation in its own furrow without deforming it and mixing the soil layers, the dumps are made of a cylindrical shape and are installed with the rear part of the furrow edge of the blade raised from the bottom of the furrow by an amount equal to the maximum depth of tillage, to ensure full rotation of the formation when moving along the surface of the dump, plowing knives are attached to the shoe on the right and left sides of the working body, rigidly connected to the plowing blades with a width equal to the maximum tillage depth, and the plowing blades in the lower part are rigidly connected to the furrow edge of the blade and have a variable a helical shape of the surface with a turn of the surface of the plow by 180°, ensuring that as the formation rotates when moving along the surface of the dump, the formation is perpendicular to its surface and maintaining the distance from the surface of the dump to the plow equal to the width of the seam until its full rotation of 180°.

The technical result of the work of the soil-cultivating working tool is achieved by the fact that the soil layer, formed by cutting with a disk knife mounted on the frame of the implement in front of the working body, with a plow knife on the sides, and from below with a chisel and a ploughshare, arrives on the surface of the cylindrical blade and begins to move between the plow surfaces and the blade, gradually turning up to 180° in its own furrow without deformation and movement of soil layers due to maintaining the distance between the plow and the blade constant, equal to the width of the formation, and ensuring a constant fit of the side surfaces of the formation to the surfaces of the dump and the plow with a variable surface shape. In this case, the rear parts of the furrow edge of the dumps are raised from the bottom of the furrow by an amount equal to the maximum depth of tillage in order to change the shape of the surface of the plow without contacting the bottom of the furrow in order to ensure a complete rotation of the layer by 180° when it moves to the surface of the bottom of the furrow.

In FIG. Figure 1 shows a general view of the soil-cultivating working body.

In FIG. 2 - front view of the soil-cultivating working body;

In FIG. 3 - side view of the soil-cultivating working body;

In FIG. 4 - top view of the soil-cultivating working body.

The soil-cultivating working body (Fig. 1-4) consists of a stand 1 with a thrust bearing 2 (Fig. 4), to which a shoe 3 is attached using bolts 4.

A chisel 5, right 6 and left 7 plowshares and a plunger knife 15 are attached to the shoe 3 using bolts 8. To smoothly move apart the layers cut by a disk knife located on a separate stand on the frame of the tool in front of the stand 1, to the front edge of the stand 1 using bolts 9, a knife 10 is attached. From the surface of the right 6 and left 7 plowshares, the layer smoothly passes to the surface of the right 11 and left 12 cylindrical blades, made in the form of cylinders, the rear parts of the furrow edge of which are raised from the bottom of the furrow by an amount equal to the maximum tillage depth a _max (Fig. 3). The front edges of the dumps 11 and 12 are docked tightly to the upper edge of the plowshares 6 and 7. The shape of the upper edge of the dumps is determined by the trajectory of the formation movement from the condition that there is no spillage of soil particles when it moves to a full turn. The blade 15 of the dam and the furrow edges of the dumps 11 and 12 are rigidly connected to the dams 13 and 14. The helical shape of the dams determines the trajectory of the formation along the surface of the dump, creating at each moment of movement full contact with the side surfaces of the formation, smoothly changing the shape of its surface by 180° for account for a smooth turn.

On slatted and cylindrical dumps, it is possible to adjust the shape of the blade wing depending on the type and condition of the soil and the presence of plant residues using a screw adjustment device 16.

The proposed tillage working tool for working in various soil and climatic conditions has the following technical characteristics (Fig. 1): working body working width b=0.7...1.0 m, working width of the right 3 and left 4 shares b ₂ =b ₁ =0.35...0.5 m, depth of tillage with working tool a =0.2...0.3 m, plowshare angle γ =72...90°, bit width d =0.07 m.

The proposed soil-cultivating working body can be used in the implementation of a method of cultivating agricultural crops (patent for invention No. 2717987 C1, 03/27/2020. Application No. 2019119640 dated 06/24/2019), which provides for long-term crop rotation (8-9-field) soil cultivation with moldboardless working bodies and once in a crop rotation with a pair of moldboard cultivation with a rotation of the layer by 180° without mixing the soil layers to embed plant residues and accumulated weed seeds at the bottom of the furrow.

Existing working bodies for moldboard tillage are designed for tillage by crumbling and mixing different layers of soil. The inventive tillage working body allows for moldboard tillage without crumbling and mixing soil layers and works as follows:

Before starting work, the soil-cultivating working body is set to a given tillage depth and the reliability of fastening of all components of the working body is checked. The stroke depth of the disc knife is set to 10...12 cm in order to completely cut off the root systems of plants at their depth. During the movement of the working body, the layers, cut in the middle part with a disk knife and on the sides with the knives of the plowmen 15, from below, with the right and left plowshares, run onto the surfaces of the left and right cylindrical dumps and under the action of the plowmen, a smooth turn of the layers to the right and left sides begins. At the same time, due to the smooth rotation of the surfaces of the plows by 180°, the full alignment of the side surface of the formation to the surface of the plow is ensured, while simultaneously maintaining the distance to the surface of the dumps, equal to the width of the seam. All this allows the formation to keep the top layer of soil with plant residues and their root system undestroyed and embed them into the soil along with weed seeds in the lower horizon, which during the entire long crop rotation turn into structural soil, and the weed seeds lose their germination. The lower structured layer rises to the top for further use.

Thus, the soil-cultivating working body makes it possible to complete the set tasks of complete rotation of the formation without its deformation, in order to ensure the incorporation of weed seeds into the lower horizon without mixing them. Ultimately, this reduces weediness in fields and increases the productivity of cultivated crops.

Claims (1)

A soil-cultivating working tool, including a stand, a shoe to which a chisel is attached, plowshares, left- and right-turning blades with a continuous working surface, the front edges of which are docked with the upper edge of the right and left plowshares, the right and left plowshares are also attached to the shoe, characterized in that that to ensure the rotation of the formation by 180° in its own furrow without deforming it and mixing the soil layers, the dumps are made of a cylindrical shape and are installed with the rear part of the furrow edge of the blade raised from the bottom of the furrow by an amount equal to the maximum depth of tillage, to ensure a complete rotation of the formation when moving along the surface of the blade, on the right and left sides of the working body, plowing knives are attached to the shoe, rigidly connected to the plowing blades with a width equal to the maximum tillage depth, and the plowing blades in the lower part are rigidly connected to the furrow edge of the blade and have a variable helical shape of the surface, with a reversal of the surface plow by 180°, ensuring that as the formation rotates when moving along the surface of the dump, the formation is perpendicular to its surface and maintaining the distance from the surface of the dump to the plow equal to the width of the seam until its full rotation of 180°.