RU63633U1 - DISC WORKING BODY OF SOIL PROCESSING TOOLS - Google Patents

Abstract

PURPOSE: in agriculture, in disk harrows, plows, cultivators, cultivators, cultivators, etc., intended for pre-sowing tillage, crumbling of cultivated beds and clumps, for loosening the soil and destroying weeds, for stubbling, for post-harvest soil cultivation, as well as for the care of meadows. SOLVED PROBLEM: expanding the scope by providing the possibility of using a disk for processing soils of various types, improving the quality of soil cultivation by improving the quality of crumbling blocks and cutting crop and plant residues, improving manufacturability and reducing the complexity of manufacturing a disk and supporting elements for attaching it to a tillage implement , as well as improving the reliability of mounting the disk. ESSENCE OF A USEFUL MODEL: in a disk working body of a tillage implement made in the form of a convex metal disk, the cutting edge of which is made with a sharpening located on the outside of the disk, it is proposed that the convex disk be truncated with a flat area located in the central part of the disk and intended for mounting the disk to a tillage implement, and the sharpening of the cutting edge of the disk, depending on the type of soil, with a sharpening angle α equal to 20 ° ± 5 ° for light soils, or with a sharpening angle α, are 40 ° ± 5 ° for heavy soils. The convex disk of the disk working body can be made in the form of a truncated sphere, the radius of curvature of which is 680 mm. A convex disk of the disk working body can be made with curly notches along the cutting edge of the disk with sharpening along the edge of the recesses, while sharpening along the edge of the recesses can be made of a variable width of the crescent shape.

Sharpening of the cutting edge of a convex disk can be provided with a reinforcing layer, the hardness of which exceeds the hardness of the material from which the convex disk is made. Sharpening the cutting edge of the convex disk can be performed with undercutting. An additional sharpening of the cutting edge for working on solid soils can be performed on the inside of the convex disk. Sharpening the cutting edge of the convex disc can be performed with a blunting of 1.0 mm ± 0.5 mm. The diameter of the supporting platform located in the central part of the convex disk may be at least 160 mm.

Description

The utility model relates to agricultural machinery, in particular to the working bodies of disk tillage implements such as disk harrows, plows, cultivators, cultivators, etc., designed for presowing cultivation of the soil, crumbling of soddy layers and blocks, for loosening the soil and destroying weeds , for stubble cultivation, for post-harvest tillage, as well as for the care of meadows.

Known spherical disk working bodies with a flat bottom, used in tillage, sowing and planting machines according to OST 23.2.147-85 "Details of agricultural machines. Disks. General specifications", 01.01.1986). The plane of the bottom of such disks is tangent to the spherical surface of the disk itself.

The disadvantage of these disks is the low manufacturability and high complexity of their manufacture, due to the complexity and complexity of manufacturing technological equipment and equipment necessary for the manufacture of disks.

Known disk for tillage tools according to the patent for utility model RU No. 466620, 7 AB 7/00, priority 2005.03.04, selected as the closest analogue. The disk for the tillage implement is made of metal sheet material curved around the sphere. The disk has a sharpening around the perimeter. The diameter of the disc is 560 mm. The disk is heat-treated over the entire surface to a hardness of HRC 48-52 units with a thickness of 6 mm or to a hardness of HRC 39-41 units with a thickness of 8 mm, while the radius R of the sphere is 635 mm., And sharpening is performed at an angle of 30 ° to the axis of rotation of the disk . The disk can be made either without cutouts, or with semicircular cutouts with a radius of 47.5 mm.

The disadvantage of this disk for a tillage implement is that the disk is bent over the entire surface of the sphere and does not have a flat area for attaching it to the tillage implement (in particular, to the supporting element - a stand, bearing assembly, etc.). This makes it difficult to manufacture support elements for mounting the disk to the implement, as well as the need to drill holes in the disk, which requires additional equipment and

fixtures. In general, all this leads to a decrease in the manufacturability of manufacturing and to an increase in the complexity of manufacturing a disc and a tillage implement as a whole. At the same time, the reliability of mounting the disk to the tillage implement is not high.

In addition, when using such a disk organ, the quality of the soil treatment is reduced due to the fact that the grinding angle is set without regard to the type of soil and is 30 ° to the axis of rotation. This does not allow to obtain a good quality of processing on heavy and hard soils, therefore, it limits the scope of such a disk.

The objective of the utility model is to expand the scope by providing the possibility of using a disk for processing soils of various types, improving the quality of soil cultivation by improving the quality of crumbling blocks and cutting crop and plant residues, improving manufacturability and reducing the complexity of manufacturing a disk and supporting elements for attaching it to a soil cultivator implements, as well as improving the reliability of mounting the disk and, therefore, the reliability of the entire tillage implement.

The essence of the utility model is that in a disk working body of a tillage implement made in the form of a convex metal disk, the cutting edge of which is made with a sharpening located on the outside of the disk, it is proposed that the convex disk be truncated with a flat platform located in the central part of the disk and intended for fastening the disk to the tillage implement, and sharpening the cutting edge of the disk depending on the type of soil with an angle α of sharpening equal to 20 ° ± 5 ° for light soils, or glom sharpening α equal to 40 ° ± 5 ° for heavy soils.

The convex disk of the disk working body can be made in the form of a truncated sphere, the radius of curvature of which is 680 mm.

The convex disk of the disk working body can be made with curly notches along the cutting edge of the disk with sharpening along the edge of the notches. In this case, sharpening along the edge of the recesses can be made of a variable width of the crescent shape.

Sharpening of the cutting edge of a convex disk can be provided with a reinforcing layer, the hardness of which exceeds the hardness of the material from which the convex disk is made.

Sharpening the cutting edge of the convex disk can be performed with undercutting.

An additional sharpening of the cutting edge for working on solid soils can be performed on the inside of the convex disk.

Sharpening the cutting edge of the convex disc can be performed with a blunting of 1.0 mm ± 0.5 mm.

The diameter of the supporting platform located in the central part of the convex disk may be at least 160 mm.

In the proposed disk working body of the tillage implement, the convex disk is truncated with a flat platform located in the sectional plane in the central part of the disk and intended for fastening the disk to the tillage implement, which improves the manufacturability and fasteners by simplifying the manufacture of fastening elements of the disk to the tillage implement. All this helps to reduce the complexity of manufacturing the disk and simplifies the design of the supporting elements of the tillage implement, to which the disk working bodies are attached. Also, the presence of a flat platform in the central part of the disk allows the disk to be fixed on the support element of the tillage implement using standard fasteners (for example, bolts) whose axes are parallel to the axis of rotation of the disk, which increases the reliability of mounting the disk to the tillage implement and, therefore, increases the reliability of the whole tillage implements.

In the proposed disk working body of a tillage implement, the angle α of sharpening the cutting edge of the disc depending on the type of soil allows you to expand the scope of use of the tillage implement due to the possibility of using disks for processing soils of various types with a consistently high quality of processing. For light and soft soils, such as medium-sized fine earth with a density of up to 1.0 g / cm ³ , the sharpening angle α is equal to 20 ° ± 5 °, since the use of a sharper angle on light soils will improve the quality of processing and reduce energy costs without reduce the reliability and service life of the working body. For heavier soils, such as, for example, lumpy sandy fine earth with a density of up to 1.2 g / cm ³ , a sharper sharpening angle α of 40 ° ± 5 ° is performed, which also ensures a long service life of the working body and high quality soil treatment.

In the proposed disk working body of the tillage implement, the convex disk can be made in the form of a truncated sphere with a radius of curvature

R equal to 680 mm, which improves the manufacturability of the manufacture of a disk working body.

The ability to make a convex disk with shaped sharpened recesses (cuts) along the cutting edge of the disk improves the crushing of the wrapped layer of the earth, cutting and ejecting plant debris on the soil surface, which helps to improve the quality of soil cultivation. In this case, the sickle-shaped sharpening of the cutting edge of the recesses (cuts) of the disk helps to increase the wear resistance of the cutting edge, and therefore, increases the service life of the working body.

The implementation of the cutting edge of the disk with a reinforcing layer, the hardness of which exceeds the hardness of the material from which the disk is made, increases the wear resistance of the working edges of the disk and thereby eliminates the possibility of premature exit from the working state. All this increases the service life of the disk working body and, therefore, increases the reliability of the tillage unit as a whole and the quality of processing.

The sharpening of the cutting edge located on the outside of the convex disk with undercutting facilitates the work of the disk during soil cultivation, which reduces the energy consumption during processing (the load during cutting is reduced, the friction force between the working body and the ground decreases). All this increases the reliability of the disk working body and helps to reduce energy consumption.

By performing additional sharpening of the cutting edge from the inside of the disk, the cutting edge is prevented from chipping when treating hard, stony soils (for example, slightly stony lumpy and medium-rocky blocky soil with a density of up to 1.3 g / cm ³ ), thereby improving the quality of processing and increasing the term services of the working body.

The sharpening of the cutting edge of the disk with a blunting equal to 1.0 mm ± 0.5 mm prolongs the life of the disk working body due to the fact that eliminates the possibility of chipping the cutting edge and the failure of the disk. Thus, frequent replacement of the disc or sharpening of its cutting edge is not required, therefore, the reliability of the tillage implement as a whole is increased.

The diameter of the flat platform located in the central part of the disk is at least 160 mm, which ensures reliable fastening of the disk working body to the tillage implement due to the possibility of placing the required number of standard fasteners (bolts).

Figure 1 shows the inventive disk working body of a tillage implement. Figure 2 shows a section aa in figure 1. Figure 3 shows the node B of the cutting edge of the disk in figure 2 (option I - with the sharpening of the cutting edge made on the outside of the disk); figure 4 shows the node B of the cutting edge of the disk in figure 2 (option II - with a sharpening of the cutting edge, made on the outside of the disk and undercut); figure 5 shows the node B of the cutting edge of the disk in figure 2 (option III - with a sharpening of the cutting edge made on the outside of the disk, with an additional sharpening of the cutting edge made on the inside of the disk).

The disk working body of the tillage implement, shown in figures 1 and 2, is a convex metal disk 1 with a sharpening 2, made from the outer side 3 of the disk 1 along the cutting edge 4. The convex disk 1 is made in the form of a truncated spherical disk with a flat platform 5, located in the central part of the disk 1 and intended for attaching this disk 1 to a tillage implement (not shown in the figures). The angle α of sharpening 2 is determined depending on the type of soil and is either 20 ° ± 5 ° for light soils or 40 ° ± 5 ° for heavy soils. The convex disk 1 is made in the form of a truncated sphere with a radius R of curvature, which is 680 mm. The convex disk 1 is made with curly recesses (cutouts) 6 along the cutting edge 4 of the disk 1 with a sharpening 7 along the edge of the recesses 6, made of variable width, for example, from 1 mm to 10 mm, and having a crescent shape. To increase the wear resistance of the working cutting edge 4 along the width of the sharpening 2 there is a reinforcing layer 8. The reinforcing layer 8 can be made, for example, by powder flame welding by carbide of a hard alloy, for example, tungsten, and has a hardness of more than HRC 60 units, while disk 1 is made of medium carbon low alloy steel grade 35 G2 and has a hardness of 44 HRC units.

Figure 3 presents a variant I of the execution of the node B, in which along the cutting edge 4 from the outer side 3 of the disk 1 is sharpened 2 with an angle α. Figure 4 presents a variant II of the execution of the node B, in which along the cutting edge 4 is sharpened 2 from the outer side 3 of the disk 1 with an undercut 9 of the angle α. Figure 5 presents a variant III of the execution of the node B, in which an additional sharpening 10 is made along the cutting edge 4 from the inner side 11 of the disk 1. For all variants of the sharpening 2 of the cutting edge 4 of the disk 1, blunting 12 is performed, size

which is 1.0 mm ± 0.5 mm. The diameter d of the flat platform 5 located in the central part of the disk 1 is 160 mm with a diameter of the disk 1 of 570 mm.

The working body works as follows.

Before starting work, determine the type of cultivated soil and, depending on the soil characteristics, select a disk working body with an angle α of sharpening optimal for this case 2. Quickly, firmly and reliably, which is ensured by the presence of a flat platform 5, fasten the disk working body to the tillage implement using fixing tools parts, for example, bolts (not shown in the figures) located in the holes (not shown in the figures) of the flat platform 5, after which the working body is ready for operation.

During the movement of the tillage implement, the disc working body moves around the field, performing a rotational movement. Due to the movement of the disk 1 on the surface of the field under the influence of the mass of the gun, it crashes into the soil. The cutting edge 4 of the disk 1 with a sharpening 2, provided with a reinforcing layer 8 and having curly grooves 6 with a sickle-shaped sharpening 7, qualitatively cuts and raises the soil layer, crumbles it, partially wraps it and takes it to the side, while the optimal value of the angle α of the sharpening 2 of the cutting edge 4 provides the necessary depth of cultivation and the degree of crumbling necessary for this type of soil. Directly by cutting edge 4, disk 1 cuts the soil and crop and crop residues, experiencing resistance and stress when meeting with solid inclusions. Shaped sharpened recesses 6 of the cutting edge 4 of the disk 1 improve the crushing of the earth, as well as cutting and ejecting plant debris (roots, small stumps, etc.) onto the soil surface.

Thus, the claimed utility model expands the scope of the disk working body by providing the possibility of using various types of soils for processing, and also improves the quality of soil cultivation by improving the quality of crumbling blocks and cutting crop and plant residues, to increase manufacturability and reduce the complexity of manufacturing the disk and supporting elements for attaching it to the tillage implement, in addition, to increase the reliability of mounting the disk to the tillage implement.

Claims (8)

1. The disk working body of the tillage implement, made in the form of a convex metal disk, the cutting edge of which is made with a sharpening located on the outer side of the disk, characterized in that the convex disk is truncated with a flat platform located in the sectional plane in the central part of the disk and designed for fastening the disk to the tillage implement, and the sharpening of the cutting edge of the disk is made depending on the type of soil with a sharpening angle α equal to 20 ° ± 5 ° for light soils, or with a sharpening angle α, 40 ° ± 5 ° for heavy soils. 2. The disk working body of the tillage implement according to claim 1, characterized in that the convex disk is made in the form of a truncated sphere, the radius of curvature of which is 680 mm. 3. The disk working body of the tillage implement according to claim 1, characterized in that the convex disk is made with curly recesses along the cutting edge of the disk, while a sharpening of a variable width of a crescent shape is made along the edge of the recesses. 4. The disk working body of the tillage implement according to claim 1, characterized in that the sharpening of the cutting edge of the disk is made with a reinforcing layer, the hardness of which exceeds the hardness of the material from which the disk is made. 5. The disk working body of the tillage implement according to claim 1, characterized in that the sharpening of the cutting edge of the disk is made with undercut. 6. The disk working body of the tillage implement according to claim 1, characterized in that for working on solid soils an additional sharpening of the cutting edge is made on the inside of the convex disk. 7. The disk working body of the tillage implement according to claim 1, characterized in that the sharpening of the cutting edge of the convex disk is made with blunting equal to 1.0 mm ± 0.5 mm 8. The disk working body of the tillage implement according to claim 1, characterized in that the diameter of the flat platform located in the central part of the convex disk is at least 160 mm.