RU209520U1 - WORKING BODY OF THE IMPLEMENT FOR SLIDING SOIL TILLAGE - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to soil-cultivating working bodies. The working body of a tool for non-moldboard tillage, including a stand, a universal share fixed to it, cutting edges with teeth. The working surface of the paw has cutting and loosening parts and is made in the form of a smooth conjugation of sections of a logarithmic spiral. The cutting edge of the paw has a convex contour of a logarithmic curve, and the front edge of each tooth has a rectilinear shape, is placed at an angle of sliding cutting to the longitudinal axis of the paw and overlaps in the transverse direction of the front edge of the tooth located in front, and the rear edge of each tooth is made straight and is located perpendicular to tangent corresponding to the contour point. Such a design and its use makes it possible to eliminate the shortcomings of the existing ones, rationally carry out non-moldboard tillage, and reduce the energy intensity of loosening without transferring significant dynamic loads to the base machine.

Description

The utility model relates to agricultural engineering, in particular to the working bodies of implements for non-moldboard tillage.

A number of flat-cutting paws are known, the working surface of which is equipped with radially mounted solid, hollow, adjustable stabilizers with the possibility of performing self-oscillating movements in the vertical plane - rippers, stabilizer knives, where their cutting edge is made straight, curved, elliptical, etc. [1].

The disadvantages of these flat-cutting paws with such stabilizers-rippers are clogging them with soil and plant residues, significant energy consumption of loosening, and also due to uneven wear of cutting elements having special shapes, make them less reliable in operation.

Known tillage working body for non-moldboard tillage, containing a rack and a loosening paw with a straight cutting blade, cutouts in the shape of a trapezoid [2].

The disadvantages of this working body are the significant energy consumption of the loosening process, and such a design of the teeth of the cutting blade prevents the condition of sliding cutting of the soil and sliding of weeds on it. This leads to the accumulation and enveloping of plants, in general, to clogging of the working bodies and thereby reducing the quality of tillage.

Also known is the working body of a tool for non-moldboard tillage, including a rack and a flat-cutting paw fixed on it, the working surface of which is made with a double convex upward curvature: negative - in the undercutting part and positive - in the loosening part and equipped with a radial knife in the form of a plate mounted parallel to it the longitudinal axis of the paw and smoothly enveloping its surface, and the generatrix of the working surface of the paw, located in a longitudinally vertical plane passing along the axis of the paw and forming the working surface of the paw, located in a transverse vertical plane passing perpendicular to the longitudinal axis of the paw through its upper point (top), located the front part of the rack are made in the form of smoothly conjugated sections of a logarithmic spiral: negative - in the undercutting part and positive - in the loosening part, and the cutting edge of each paw wing has a rectilinear contour [3].

The disadvantages of this working body are the rapid wear and breakage of teeth of this shape, clogging it with weeds and soil in the area of the knife-stabilizer, which leads to an increase in the energy intensity of loosening and a decrease in the quality of tillage.

Known is the working body of a tool for non-moldboard tillage, including a rack and a flat-cutting paw fixed on it, the working surface of which is made with a double convex upward curvature: negative - in the undercutting part and positive - in the loosening part and equipped with radial knives located in the area of the middle of the wings of the paw, made in the form of toothed flat discs and a rigidly fixed knife in the form of a plate in the area of the longitudinal axis of the paw, and the contour of the cutting edge of the paw has the shape of a parabola [4].

The disadvantages of this working body are the low quality of tillage and the significant energy intensity of loosening. The proposed geometric shape of the paw working surface is not designed taking into account the specified deformations and the physical and mechanical properties of the soil. Also, a rigidly fixed knife in the form of a plate does not contribute to a decrease in traction resistance, and flat discs do not improve the quality of tillage due to a small deformation zone in the vertical plane.

The objective of the utility model is to eliminate these disadvantages of analogs and prototype.

The technical result, which this solution is aimed at, is to improve the quality of tillage due to intensive crumbling and, as a result, to reduce the energy intensity of the tillage process due to the peculiar effect of the working surface and the teeth of the cutting edge of the paw on the soil.

The specified level of technology is achieved by the fact that in the working body of the tool for non-moldboard tillage, including the stand 1, the universal paw 2 fixed on it, the cutting edges 3 with teeth 4. The working surface of the paw has a cutting 5 and loosening 6 parts, and is made in the form of a smooth conjugation of sections of a logarithmic spiral. The cutting edge of the paw 2 has a convex contour 7 of a logarithmic curve, and the front edge 8 of each tooth has a rectilinear shape, is placed at an angle of sliding cutting to the longitudinal axis of the paw and overlaps in the transverse direction of the front edge of the tooth located in front, and the rear edge 9 of each tooth is made straight and is located perpendicular to the tangent (Т-Т in Fig. 2) corresponding to the contour point 7.

The working body of the tool is illustrated by diagrams:

Fig. 1 - working body, side view;

Fig. 2 - the proposed working body is shown, top view;

Fig. 3-working body, rear view;

Fig. 4 shows section A-A.

The working body of the cultivator contains a rack 1, a universal paw 2 fixed on it, cutting edges 3 with teeth 4. The working surface of the paw has a cutting 5, loosening 6 parts and is made in the form of a smooth pairing of sections of a logarithmic spiral. The cutting edge of the paw 2 has a convex contour 7 of a logarithmic curve, and the front edge 8 of each tooth has a rectilinear shape, is placed at an angle of sliding cutting to the longitudinal axis of the paw and overlaps in the transverse direction of the front edge of the tooth located in front, and the rear edge 9 of each tooth is made straight and is located perpendicular to the tangent (Т-Т in Fig. 2) corresponding to the contour point 7.

The combined unit works as follows: when this unit moves, the paws cultivate the soil to a set depth, and the rippers partially loosen it to the depth of seed placement.

Namely, when the cultivator is working on the cultivated area, the paws cut the soil layer with the cutting part of the protrusions - teeth, made along a logarithmic curve with a bulge down. Under the action of protrusions, the deformation zones of which are closed, the bonds of the soil in the interprotrusion space are broken. The soil layer enters the wavy crumbling surface of the paw, where, under the action of alternating transverse and longitudinal forces, it intensively crumbles with spillage of small soil particles to the bottom of the furrow. Cutouts in the crumbling part of the share contribute to the rapid descent of the soil from the share.

Such a design and its use makes it possible to eliminate the shortcomings of the existing ones, rationally carry out non-moldboard tillage, reduce the energy intensity of loosening without transferring significant dynamic loads to the base machine.

List of used literature:

1. Maksimov I.I. Energy concept of erosion stability of anthropogenic agrolandscapes / I.I. Maksimov, V.I. Maksimov.-Cheboksary: Chuvash State Agricultural Academy, 2006.-304 p.

2. Babitsky L.F. Flat-cutting working body / L.F. Babitsky, Yu.E. Voitenko // A.S. No. 600976. - Published. in B.I., 1978, No. 13.

3. Pikmullin G.V. The working body of the tool for non-moldboard tillage / G.V. Pikmullin, G.G. Bulgariev, F.F. Iblyaminov // RF patent for utility model No. 103267.

4. RF patent for the invention No. 2494589, IPC A01V 35/18 and 49/02. R. G. Yunusov, G. G. Bulgariev, G. V. Pikmullin, V. P. Danilov; dec. 02/28/2012; publ. 10.10.2013, Bull. No. 28.

Claims (1)

The working body of the tool for non-moldboard tillage, including a paw, the working surface of which has a cutting and loosening part and is made in the form of a smooth conjugation of sections of a logarithmic spiral, and a cutting edge with teeth, characterized in that the cutting edge of the paw has a convex contour of a logarithmic curve, while the front edge of each tooth has a rectilinear shape and is placed at a sliding cutting angle to the longitudinal axis of the paw and with overlapping in the transverse direction of the front edge of the tooth located in front, and the rear edge of each tooth is made straight and located perpendicular to the tangent corresponding to the contour point.

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