RU2113077C1 - Soil protection treatment implement - Google Patents

Abstract

FIELD: agricultural engineering; erosion control devices. SUBSTANCE: implement has slitter and slit wall rippers installed in tandem with blades on front parts. Slit wall rippers are made in form of cylindrical rings installed at sides of slitter. Front parts of rings are provided with blades with cutting edges over spiral lines with left-hand and right-hand hand of helix. Points of mating of cutting edges directed in opposite sides are arranged at maximum distance from side walls of slitter. Rings on slitter are arranged in mirror-like manner. EFFECT: improved quality of soil treatment. 9 cl, 4 dwg

Description

 The invention relates to agricultural machinery, in particular to devices for anti-erosion tillage.

Known working body for soil sowing, in which in order to reduce traction resistance, the curved-concave cutting edge of the knife is made in the form of a parabola with the center of its branch at the middle of the rack height, while the angle of knife sharpening in the upper and lower parts of the parabola decreases to the center of its branch. The value of the angle of sharpening of the knife decreases from 40 to 18 ^o [1].

 When cutting gaps with the described working body, the plant and root residues along the curved cutting edges are carried away to the middle part of the rack, where they are removed and partially cut. Cut stems and roots of plants reinforce the walls of the cracks. Through the reinforced and compacted walls of the slot, irrigation water weakly soaks the soil layer and soil along the walls of the slot. This working body is acceptable only for cutting water-catching cracks in the crops of perennial forage crops.

 The closest device of the same purpose to the proposed object in terms of features is a tool for soil tillage, containing successively installed slitherese and a working body for loosening the walls of the slit, in which, to increase the degree of crumbling of the soil along the edges of the slit, the working body for loosening the walls the slots are made in the form of a mouth box mounted on a spring C-shaped rack with a half-screw dump; in front of the slitherer, a disk [2] placed with it in one plane is installed. This device is taken as a prototype.

 The reasons that impede the achievement of the required technical result when using the known device adopted for the prototype include the low quality of loosening the soil and high energy consumption. After the passage of the cheresera and the spring strut, flaws with twisted clods of earth remain on the sides. On the same slit for loosening it move three spaced apart in the direction of movement of the different constructive use of the working body.

 The problem to which the invention is directed is to increase the degree and volume of soil crumbling along the edges of the slit.

 The technical result is a simplification of the design of the implement, reducing traction resistance and improving the quality of tillage.

 The specified technical result in the implementation of the invention is achieved by the fact that in the implement for soil protection tillage, which contains successively mounted slit-side openings with blades on the front part and working bodies for loosening the walls of the slit, working bodies for loosening the walls of the slit are made in the form of cylindrical rings mounted on the sides of the crevice, and the front parts of the rings are equipped with blades with cutting edges along the helical lines with left and right coils, while the mating points are multidirectional ezhuschih edges maximally removed from the side walls schelereza; rear cuts of cylindrical rings are made along helical lines; the angle of inclination of the tangents to the helical lines and the generatrix of the cylindrical surface of the front slice ring is made larger than the angle of inclination of the tangents to the helical lines and the generatrix of the ring surface; rings on the slit are placed in specular reflection; slithere is formed of two plates; rings are made of parts of plates; rings are placed between the blades on the front part and the rear edge of the slit; rings of working bodies for loosening the walls of the slit are interconnected by parts of uncut plates; the blades on the frontal part of the cherese are made with differently inclined lines, the joints of which are made at different levels of cherese.

 Due to the fact that the working bodies for loosening the walls of the slit are made in the form of cylindrical rings on the sides of the slit, the above technical result is achieved.

 The analysis of the prior art, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the present invention, allowed to establish that no analogue was found, characterized by features identical to all the essential features of the invention.

 Therefore, the invention meets the requirement of "novelty" under applicable law.

 To check the compliance of the invention with the requirement of "inventive step", an additional search for solutions was carried out in order to identify features that match the distinctive features of the prototype of the present invention, the results of which show that the invention does not explicitly follow from the prior art, since no significant effects have been identified features of the invention of transformations to achieve a technical result.

 Therefore, the invention meets the requirement of "inventive step" under applicable law.

 Figure 1 shows the proposed tool, front view; figure 2 is the same side view; figure 3 is the same, plan view; figure 4 is a cross section aa in figure 2, the cross section of the slit and the diametrical section of the working body for loosening the walls of the slit.

 Information confirming the possibility of carrying out the invention are as follows.

 The soil protection tillage tool contains sequentially installed one after another slitherez 1 and working bodies 2 and 3 for loosening the walls of the slit.

Slider 1 is formed of two plates 4 and 5 with a thickness of 10 mm. The front part of the inserts 4 and 5 is equipped with single-sided blades 6, 7, 8 and 9. When the plates 4 and 5 are mated, cutting edges 10, 11, 12 and 13 are formed on the front of the slit 1 and the inclination angle of the cutting edge 10 to the horizontal direction of travel equal to 45 ... 50 ^o , and the sharpening of the left and right sidewalls 4 and 5 of the blade 6 does not exceed 8 ... 10 ^o . The inclination of the cutting edge 11 to the direction of movement is 135 ^o , while the sharpening angle of the dihedral blade 7 does not exceed 25 ... 30 ^o . The cutting edge 12 of the blades 8 to the horizon is inclined at an angle of 45 ^o . The angle of sharpening of the blades 8 is equal to 15 ... 18 ^o . The inclination of the cutting edge 13 of the blades 9 to the horizon does not exceed 125 ^o . Sharpening of the blades 9 is made at an angle of 20 ... 25 ^o . The cutting angles δ ₁ , δ ₂ , δ ₃ and δ ₄ respectively of blades 6, 7, 8 and 9 are equal to the following values 11 - 15 ^o ; 18 - 22 ^o ; 22 - 28 ^o ; 34 - 44 ^o . The mating points of the cutting edges of the inclined blades are made at different levels of crevice 1. On the lower edge 14 of the crevice 1, two inclined semicircular grooves with a radius of 8 mm are made on the side of the mating plane for installation in the inclined hole of the wear-resistant wear-out bit 15 with the blade 15 formed during pairing with the blade 16 at the front end. The bit 15 in the inclined hole of the slit 1 is fixed by two cylindrical pins 17 and 18 with a diameter of 14 mm. On the upper edge 19 of the slit-hole 1, two mounting holes 20 are made for mounting on the implement frame. Mounting holes 20 are made with a diameter of 50 mm The distance between the centers of the holes 20 is 300 ± 0.5 mm.

The working bodies 2 and 3 for loosening the walls of the slit are made in the form of cylindrical rings. The cylindrical rings of the working bodies 2 and 3 are formed from parts 21 and 22 of the slit plate 1 and 5. In plates 4 and 5, by means of local cutouts along inclined lines 23, 24, 25 and 26 and along the horizontal lines 27 and 28, technological windows 29 and 30. Parts of the sheet materials of plates 4 and 5, when the sections are mated along lines 27 and 28, form closed cylindrical rings. Thus formed cylindrical rings are placed on the side surfaces of the plates 4 and 5 due to parts 31 and 32 of the uncut surfaces of the plates 4 and 5. Inclined lines 23 and 24 of the plate 4 form cutting edges 33 and 34 on the front of the right working body for loosening the walls from the side plates 4. The inclined lines of the slices 23 and 24 of the plates 5 form cutting edges 35 and 36 on the front of the left working body 3 for loosening the left wall of the slit from the side of the plate 5. The inclined lines of the slices 23 and 24 of the plates 4 and 5 on cylindrical surfaces the rings of the working bodies 2 and 3 form helical lines with left and right coils. The point 39 of the mating of the cutting edges 33 and 34 on the front of the right working body 2 and the point 40 of the mating of the cutting edges 35 and 36 on the front of the left working body 3 are maximally distant from the side walls of the crevice 1. The cutting edges 33 - 36 are formed by sharpening the edges of the plates 4 and 5, made at an angle of 20 ± 3 ^o along the lines of slices 23 and 24. Sharpeners for cutting edges 33 - 35 are made on the outer surfaces of the inserts 4 and 5. The rear edges 41 - 44 of the cylindrical rings of the working bodies 2 and 3 are made with a large angle of inclination of the tangents to helical lines rather than to helical lines tangent to the cutting edges 33 - 36 on the front of the cylindrical rings of working bodies 2 and 3. Ring working bodies 2 and 3 on plates 4 and 5 are made with respect to the plane of their interface in a mirror image.

The rings of the working bodies are interconnected by the uncut parts of the plates 4 and 5 and are mutually connected by resistance welding with an area of the welded sections of at least 1.5 ... 2.0 cm ² . The pitch between the sections to be welded should not exceed 40.50 mm. In a similar way, plates 4 and 5 of the slit 1 are connected to each other, which forms a single, non-separable welded assembly with smooth working surfaces, eliminating soil sticking and overhanging plant residues. The rings of the working bodies 2 and 3 are placed between the front part and the rear edge of the incision 1.

 The gun works as follows.

 Mounting holes 20 on the upper edge 19 of the slit 1 are hung on the frame of the implement, equipped with a hitch bracket and support wheels. Support wheels set the depth of cultivation. The number of slithereries 1 on the gun frame is set taking into account the energy saturation of the traction means. When lowering the frame of the gun, the blade 16 of the bit 15 touches the surface of the field and cuts into the soil. Due to the small size of the front part of the bit 15 and the large weight of the slit 1, the frame, the hitch and the support wheels, the blade of the bit 16 is embedded in the arable horizon, reaches the over-compacted surface of the plow sole, destroys it and is embedded in the soil. With the introduction of the bit 15, along with it, the slitherer 1 and the working bodies 2 and 3 are carried away into the soil to destroy the walls of the slit. Active penetration of slit 1 with the chisel 15 into the soil occurs to the horizontal position of the walls of the cylindrical rings of the working bodies 2 and 3. When the slit 1 moves at a steady depth, the cutting edge 10 of the blades 6 on the top of the slit 1 cuts off the roots of plants in the soil, and the plant residues with the surface of the field is carried away into the arable horizon. The stems are displaced to the mating point of the cutting edges 10 and 11. By the cutting edge 11 of the blades 7, the roots of the cultivated and weed plants are extracted, which are guided along the inclined cutting edge 11 to the point of mutual mating of the cutting edges 10 and 11. The specific load on the roots and stems of the plants the specified point reaches limit values. The latter are cut. Plates 4 and 5 the roots and stems of plants reinforced with the walls of the gap. Reinforcement of the walls of the slit occurs above the upper walls of the cylindrical rings of the working bodies 2 and 3. The cutting edges 12 and 13 of the blades 8 and 9 similarly form a narrow slit 2.0 cm wide in the lower soil horizons. Cut roots reinforce the walls of the gap in the soil horizon. Since the diameter of the bit 15 is less than the thickness of the slit 1, in the lower part of the wall of the slit are smooth. The cutting edges 12 and 13 of the inclined blades 8 and 9, the roots of the weeds and plants are oriented into the soil layer, below the lower forming surface of the rings of the working bodies 2 and 3. The point of contact of the cutting edges 11 and 12 is placed in the same horizontal plane as the axis of symmetry of the cylindrical rings of the workers bodies 2 and 3.

The distal ends 39 and 40 of the cylindrical rings of the working bodies 2 and 3 for loosening the walls of the slit cut into the soil at the level of the plow sole and intensively crumble like a plate sandwiched between the inner wall of the ring and plate 5 for the left working body 3 and plate 5 for the right working body 4. The cutting edges 35 and 36 on the front of the left working body 3 and the cutting edges 33 and 34 on the front of the right working body 2 first cut narrow cylindrical slits 1 cm wide and direct the soil layer inside the rings. Inside the rings, the soil undergoes intense compression, and at the exit from the rings along the rear edge 41 and 42, 43 and 44, it undergoes stretching. This increases the degree of crumbling of the soil. From the large coarse soil monolith, including the soil and soil between the plow sole, agronomic valuable soil aggregates with dimensions of not more than 2-5 cm are separated. The destroyed plow sole at a width of 0.7 - 0.8 m behind each slit in the autumn-winter period allows you to accumulate the maximum amount of precipitation in the soil layer at a depth of 0.5 - 0.6 m. Until the spring cover harrowing, soil aggregates intensively accumulate atmospheric oxygen and nitrogen. After the passage of the gun, the soil density decreases from 1.37 to 0.83 g / cm ³ . This density of the soil, together with moisture reserves, ensures the steady growth of plants throughout the growing season and yield in areas of risky farming.

Thus, the above information indicates that when using the invention the following set of conditions:
- a tool embodying the invention in its implementation, is intended for use in agricultural machinery;
- for the invention as described in the independent clause of the claims below, the possibility of its implementation using the above-described or known prior to the priority date means and methods is confirmed;
- a tool embodying the invention in its implementation, is able to ensure the achievement of the perceived technical result.

 Therefore, the invention meets the requirement of "industrial applicability" under applicable law.

Claims (9)

 1. A tool for soil tillage, containing sequentially installed one after the other with blades on the front of the slit and working bodies for loosening the walls of the slit, characterized in that the working bodies for loosening the walls of the slit are made in the form of cylindrical rings mounted on the sides of the slit, the front parts of the rings are equipped with blades with cutting edges along helical lines with left and right windings, while the mating points of the multidirectional cutting edges are maximally distant from the side walls of the crevice.  2. The tool according to claim 1, characterized in that the rear edge of the cylindrical rings are made along helical lines.  3. The tool according to claim 1, characterized in that the angle of inclination of the tangents to the helical lines and the generatrix of the cylindrical surface of the ring of the front cut is made larger than the angle of inclination of the tangents to the helical lines and the generatrix of the surface of the ring on the rear edges.  4. The tool according to claim 1, characterized in that the rings on the slit are placed in mirror image.  5. The tool according to claim 1, characterized in that the slitherer is formed of two plates.  6. The tool according to claim 1, characterized in that the rings are made of parts of the plates.  7. The gun according to paragraphs. 1 and 6, characterized in that the rings are placed between the blades on the front part and the rear edge of the crevice.  8. The tool according to claims 5 to 7, characterized in that the rings of the working bodies for loosening the walls of the slit are interconnected by parts of uncut plates.  9. The tool according to claim 1, characterized in that the blades on the front of the cherese are made with different inclined lines, the mates of which are made at different levels of cherese.

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