RU168053U1 - WORKING BODY OF IMPROVEMENT FOR IMMEDIATE SOIL TREATMENT - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to the working bodies of tools for soilless tillage. The working body includes a stand and a flat-cutting paw fixed on it, the working surface of which is made with a double convex upward curvature: negative in the cutting part and positive in the loosening part. It is also equipped with a radial knife mounted in the zone of the longitudinal axis of the paws, made in the form of stabilizers-rippers with the possibility of self-oscillating movements in the vertical plane by means of elastic elements. The working body also includes other knives made in the form of serrated corrugated disks (turbo-disks) and located behind the paw in the area of the middle of its wings, and the cutting edge of each wing of the paw has a rectilinear contour along which it is made wavy. In this case, a radial knife with double-sided sharpening, located in the area of the longitudinal axis of the paw, is mounted in the area of the toe of the paw on hinges, smoothly bends around the surface of the paw, and its rear edge is equipped with an elastic element in the form of a leaf spring. Moreover, the concave and convex portions of the cutting edge of the paw are alternately made (conjugated) along an arc of a circle (or along sections of the involute of a circle), and the toe of a paw is aligned along an arc of a circle (or along an ellipse arc) and has one-sided sharpening from above. The cutting edge of the corrugated discs is provided with teeth with double-sided sharpening, the leading edge of which is made along a section of the logarithmic spiral and is placed radially along the periphery with a convexity upward curvature to the horizontal plane. In this case, the back edge of each tooth is made

Description

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

There are a number of (technical solutions) of flat-cutting legs, the working surface of which is equipped with radially mounted solid, hollow, adjustable with the possibility of self-oscillating movements in the vertical plane stabilizers-rippers (stabilization knives), where their cutting edge is made rectilinear and curved (ellipse, etc. .) [one].

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

Known tillage working body for subsurface tillage, containing a stand and a cultivating 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 process of cultivation, and such an implementation 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 the working bodies and thereby reduce the quality of the soil treatment.

Also known is the working body of the tool for soilless tillage, including a stand and a flat-cutting paw fixed on it, the working surface of which is made with a double convex upward curvature: negative in the cutting 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, moreover, forming the working surface of the paw, located in a longitudinally vertical plane passing along the axis of the paw and forming a working th 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 in front of the rack, made in the form of smoothly conjugated sections of the logarithmic spiral: negative in the cutting part and positive in the loosening part, moreover, the cutting edge of each wing of the legs has a contour of a rectilinear shape [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 stabilization knife, which leads to an increase in the energy intensity of cultivation and a decrease in the quality of soil cultivation.

Known working body of the tool for moldless tillage, including a stand and a plane-cutting paw fixed on it, the working surface of which is made with a double convex upward curvature: negative in the cutting part and positive in the loosening part and equipped with radial knives located in the middle of the wings of the paw, made in the form of gear flat disks and rigidly fixed with a knife in the form of a plate in the zone of the longitudinal axis of the paw, the contour of the cutting edge of the paw having the shape of a parabola [4].

The disadvantages of this working body are the low quality of soil cultivation and the significant energy consumption of cultivation. The proposed geometric shape of the working surface of the paw is not designed taking into account the specified deformations and 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 increase the quality of soil cultivation due to the small deformation zone in the vertical plane.

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

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

The specified level of technology (technical result) is achieved by the fact that in the working body of the tool for soilless tillage, including a stand and a flat-cutting paw fixed on it, the working surface of which is made with a double convexity upward curvature: negative - in the cutting part and positive - in the loosening part, and equipped with a radial knife mounted in the area of the longitudinal axis of the paws, made in the form of stabilizers-rippers with the possibility of self-oscillating movements in the vertical plane m resilient elements and other knives, are constructed as corrugated toothed discs (turbodiskov) and arranged for paw in the middle zone of its wings, with the cutting edge of each leg has a wing contour rectilinear shape, to which it is corrugated. In this case, a radial knife with double-sided sharpening, located in the area of the longitudinal axis of the paw, is mounted in the area of the toe of the paw on hinges, smoothly bends around the surface of the paw, and its rear edge is equipped with an elastic element in the form of a leaf spring. Moreover, the concave and convex portions of the cutting edge of the paw are alternately made (conjugated) along an arc of a circle (or along sections of the involute of a circle), and the toe of a paw is aligned along an arc of a circle (or along an ellipse arc) and has one-sided sharpening from above. The cutting edge of the corrugated disks is equipped with teeth with double-sided sharpening, the leading edge of which is made along a portion of the logarithmic spiral and is radially distributed along the periphery with a convexity upward curvature to the horizontal plane, and the rear edge of each tooth is made straight and perpendicular to the tangent corresponding to the point of the circle (disk contour). In addition, the paw contains a trapezoidal bit located in the area of its toe.

In FIG. 1 shows the proposed working body, top view;

in FIG. 2 - working body, side view;

in FIG. 3 - working body, rear view;

in FIG. 4 - shows a diagram of the construction of the cutting edge of the paw.

The working body of the tool for subsurface tillage, including a stand 1 and a flat-cutting paw 2 fixed on it, the working surface of which is made with a double convex upward curvature: negative - in the cutting part and positive - in the loosening part, and equipped with a radial knife 3 installed in the longitudinal zone the axis of the legs 2, made in the form of stabilizers-rippers with the possibility of self-oscillating movements in the vertical plane by means of elastic elements 4 and other knives 5, made in the form of gear corrugated disks (turbo disks) and located behind the paw 2 in the area of the middle of its wings 6, and the cutting edge 7 of each wing 6 of the paw 2 has a contour 8 of a rectilinear shape along which it is made wavy. In this case, a radial knife 3 with double-sided sharpening, located in the zone of the longitudinal axis of the paw 2, is mounted in the area of the toe of the paw 2 on hinges 9, smoothly bends around the surface of the paw 2, and its rear edge 10 is provided with an elastic element 4 in the form of a leaf spring. Moreover, the concave 11 and convex 12 sections of the cutting edge 7 of the paw 2 are alternately made (conjugated) along an arc of a circle (or along sections of the involute of a circle), and the toe of a paw 2 - along an arc of a circle (or along an ellipse arc) and has a one-sided sharpening from above. The cutting edge 13 of the corrugated discs 5 is provided with teeth 14 with double-sided sharpening, the leading edge 15 of which is made along a portion of the logarithmic spiral and is radially distributed along the periphery with a convexity upward curvature to the horizontal plane, and the rear edge 16 of each tooth 14 is made rectilinear and located perpendicular to the tangent corresponding to the point circle (disk contour). In addition, the paw 2 contains a chisel 17 of trapezoidal shape located in the zone of its toe. When this knife 3 is rigidly mounted on the casing 18. The device operates as follows.

When the tillage tool moves along the cultivated area in the cutting part of the paw 2, where the bit 17 is installed, the soil and weeds are trimmed in the vertical plane. Moreover, due to the implementation of the contour 8 of the cutting edge of a rectilinear shape, along which it is made wavy, cutting of the soil and weeds is carried out in a horizontal plane with sliding and minimal energy consumption of the cutting process. Under the action of the teeth 12, the leading edge of which has the shape of an arc of a circle, the soil deformation zones are closed, and there is a break in the soil connection in the interdental space, and undercutting of the soil and weeds occurs at a sliding angle. Further, the cropped soil layer, rising along the working surface, enters the loosening part, where intensive crumbling of the soil occurs without increasing the traction resistance of the working body. In this case, toothed corrugated disks 5 and a radial knife 3 mounted in the zone of the longitudinal axis of the paw 2, made in the form of stabilizers-rippers with the possibility of self-oscillating movements in the vertical plane by means of elastic elements 4, additionally contribute to the breaking of the soil layer on the working surface of the paw 2, and the dihedral shape of the working surface provides a bifurcation of the soil flow.

In addition, when treating the soil on the slopes, the installation of serrated corrugated disks 5 makes it possible to increase the stability of movement of the working body, and therefore, in general, implements (cultivator), since in this case they act not only as cultivators, but also as stabilizers of movement. Also, for gear corrugated disks 5, it is allowed to change the position of the axis of their rotation in space and control in accordance with the quality indicators of their work when changing soil properties.

The rotation of the toothed corrugated discs 5 facilitates the processing of stony soils and soils clogged with rhizomes. Therefore, by reducing the friction of the formation (about steel) on untreated soil and replacing it with the rolling friction of the gear corrugated disks, the traction resistance is reduced and the degree of crumbling of the soil is increased.

The implementation of the toothed cutting edge of the paw in the above form helps to reduce soil waste and provides sliding cutting and deformation of the soil with the least resistance.

Sharpening of the serrated corrugated discs 5 and the radially mounted knife 3 is two-sided, and the front blade of each tooth 12 of the cutting edge 7 of the paw 2 is one-sided, which contributes to a better break in the connection between the soil layer and cutting weeds.

Using the proposed design can improve the quality of tillage, reduce the energy intensity of the process of cultivation without transferring significant dynamic loads to the base machine.

Information sources

1. Maksimov I.I. The energy concept of erosion resistance of anthropogenic agrolandscapes / I.I. Maximov, V.I. Maximov. - 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. - Publ. in BI, 1978, No. 13.

3. Pikmullin G.V. The working body of the tool for subsurface tillage / G.V. Pikmullin, G.G. Bulgariev, F.F. Iblaminov // RF patent for utility model No. 103267.

4. RF patent for the invention No. 2494589, IPC A01B 35/18 and 49/02. The working body of the tool for subsurface tillage / Yunusov R.G., Bulgariev G.G., Pikmullin G.V., Danilov V.P .; declared 02/28/2012; publ. 10/10/2013, bull. No. 28.

Claims (5)

1. The working body of the tool for subsurface tillage, including a stand and a flat-cutting paw fixed on it, the working surface of which is made with a double convex upward curvature: negative in the cutting part and positive in the loosening part, and equipped with radially mounted knives: one of which is placed in the area of the longitudinal axis of the legs, and others, made in the form of gear discs, are located in the area of the middle of the wings of the feet, characterized in that the radial knife installed in the area of the longitudinal axis of the feet is made in the form of ripper tabulators with the possibility of self-oscillating movements in the vertical plane by means of elastic elements, and the other knives are made in the form of serrated corrugated turbo disks and are located behind the paw in the middle of its wings, and the cutting edge of each wing of the paw has a rectilinear shape along which it is made wavy. 2. The working body according to p. 1, characterized in that the radial knife with double-sided sharpening, located in the area of the longitudinal axis of the paw, is mounted in the area of the toe of the paw on hinges, smoothly bends around the surface of the paw, and its rear edge is equipped with an elastic element in the form of a leaf spring . 3. The working body according to claim 1, characterized in that the concave and convex sections of the cutting edge of the paw are alternately made, namely, they are conjugated along a circular arc or along sections of the involute of a circle, and the toe of the paw along a circular arc or along an ellipse arc and has a one-sided sharpening from above. 4. The working body according to claim 1, characterized in that the cutting edge of the corrugated disks is provided with teeth with double-sided sharpening, the leading edge of which is made along a section of the logarithmic spiral and is radially distributed along the periphery with a convexity upward curvature to the horizontal plane, and the rear edge of each tooth is made straight and is perpendicular to the tangent corresponding to the circumference of the disk contour. 5. The working body according to p. 1, characterized in that the paw contains a trapezoidal bit located in the area of its toe.

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