RU2137326C1 - Working tool for subsoil tillage - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: working tool has tine carrying share with cutting angle increasing from central to edge parts of share. Section of cutting edge and landward edge of share is made in the form of parabola, with parameter of landward edge parabola exceeding that of cutting edge parabola. Wedge-shaped projections on side faces of tine are made so that these projections and tine have common cutting edge. Improved geometrical parameters of working tool allow ratio of compressive stress and tensile stress to be changed with advantage to the latter. Employment of wedge-shaped projections on tine provides additional layer-by-layer separation of soil layer in transverse plane. EFFECT: increased efficiency by reduced labor consumption for soil ripping and improved quality of soil tillage. 2 cl, 3 dwg

Description

The invention relates to agricultural machinery, in particular to working bodies for loosening the soil,
Known working body / A.C. N 498922, CL A 01 B 35/20; 01/15/76; Bull. N 2. The working body of the tillage machine /, which includes racks with plowshares fixed on them, the angle of inclination of the working surfaces of which to the bottom of the furrow is made increasing from the toe to the heels of the shares and the blade, the surface of which has a smooth connection with the surfaces of the shares. However, such a working body, due to the significant angle of inclination of the front of the working surface to the bottom of the furrow, does not cut the soil, but compresses it and has high traction resistance and compacts the bottom of the furrow.

 The closest technical solution is the working body / A.C. N 1,160,948 A; class A 01 B 35/20; 06/15/85; Bull. N 22. A working body for subsurface tillage /, comprising a ploughshare mounted on a rack with a triangular blade, the cutting angle of which is made increasing from the center to the edges of the ploughshare. The disadvantage of the working body is the low quality of crumbling due to the predominance of compressive stresses during deformation of the soil formation over tensile stresses due to the significant angle of inclination of the front of the working surface to the bottom of the furrow. The low agrotechnical effect of the working body is explained by the fact that the geometrical shape of the working surface of the implement is not designed taking into account the given deformations and the physical and mechanical properties of the soil.

 The purpose of the invention is improving the quality of tillage and reducing the energy intensity of cultivation.

 This goal is achieved in that the cross section of the cutting edge and the field edge is made in the form of parabola branches, and the parameter of the field edge parabola is larger than the parameter of the cutting edge parabola, in addition, wedge-shaped protrusions with a common cutting edge are made on the side faces of the rack.

 In FIG. 1 shows a frontal projection of the working body; in FIG. 2 is a horizontal projection: in FIG. 3 - profile projection.

The working body for subsurface tillage consists of a stand 1 and a share 3 fixed on it, which has a cutting edge 4 and a field edge 5 made in cross section in the form of parabola branches, the conical equation of which has the form X ² = 2 • p • y. The parameter of the parabola p of the field edge is greater than the parameter of the parabola p of the cutting edge. Thus, the rear part of the ploughshare working surface is made expanding. The share 3 has a variable cutting angle, minimum in the center and increasing 1 in width. Rack 1 in cross section has a rectangular shape. A cutting edge is made on the front face of the rack. On the side faces of the rack, wedge-shaped protrusions are made with a common cutting edge with the rack. The working surface of the share 3 has the shape of a conoid, the axis of symmetry of which passes through the rack and which is formed by moving a straight line along the guide curves in the form of parabola branches.

 The working body works as follows. The cutting edge 4 of the working body cuts the soil layer. Further, the soil layer along the working surface of the share 3 approaches the rack 1, where it meets its sharp edge. Here, the initial deformation of the soil occurs, cracks appear in the reservoir. Stand 1 layer of soil is divided into two parts. The expanding working surface of the share 3 provides the ability to move the soil in opposite directions from the rack, thereby creating optimal tensile deformation stresses in the formation. When converging from field edge 5, additional tensile stresses appear in the soil formation. The protrusions 2 located on the rack 1 provide additional movement of the layers in cross section to the direction of movement of the working body, thereby exposing the soil to loosening.

 The use of the proposed working body for subsurface tillage improves the quality of tillage and reduces the energy consumption of cultivation. The joint use of the ledges on the rack with the new geometry of the working body makes it possible to increase the agrotechnical effect, that is, it is better to divide the soil into aggregates.

Claims (2)

1. The working body for subsurface cultivation of the soil, containing a ploughshare mounted on a rack, the cutting angle of which is made increasing from the center to the edges of the ploughshare, characterized in that the cross section of the cutting edge and the field edge are made in the form of parabola branches, the canonical equation of which has the form X ² = 2 • p • y, moreover, the parameter of the parabola p of the field edge is greater than the parameter of the parabola p of the cutting edge.  2. The working body according to claim 1, characterized in that on the side faces of the uprights are made protrusions in the form of a wedge with a common cutting edge with the upright.

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