RU2064742C1 - Soil loosening tool - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: soil loosening tool has slitter and drainer axially mounted on slitter through flexible coupling. Drainer has caving facilitating device formed as loosening members rotating in transverse-vertical plane and provided with cutting edges extending along logarithmical spirals and disposed on surface of truncated cone. Inclined disks on remote ends of loosening members are equipped with one-side blades extending along disk perimeters. Disks are inclined to cutting edges of loosening members at obtuse angle. EFFECT: increased efficiency and enhanced reliability in operation. 10 cl, 6 dwg

Description

 The invention relates to agricultural machinery, and in particular to devices for deep loosening of soil in irrigated agriculture.

где r радиус малого основания усеченного конуса;
R радиус большого основания усеченного конуса;
α угол между касательной к логарифмической спирали и образующей конуса;
b половина угла конусности;
v полярный угол.A device for subsurface cultivation of the soil is known, comprising a working body rotatable in the transverse vertical plane, each of the ripping elements of which has a cutting edge and is made according to a logarithmic spiral located on the surface of a truncated cone, in which the transverse the sections along the length of each of the ripping elements are in the form of an ellipse, on the major axis of which the cutting edge is located, while the major axis of the section lying and a small base of the cone, combined with the polar radius, and the large-sectional axis lying in the large base of the cone, aligned with the tangent to the logarithmic spiral, the angle ν between the major axis of the ellipse and the polar radius is defined by the equation

where r is the radius of the small base of the truncated cone;
R is the radius of the large base of the truncated cone;
α is the angle between the tangent to the logarithmic spiral and the generatrix of the cone;
b half taper angle;
v polar angle.

The reasons that impede the achievement of the required technical result when using the known device include the low quality of loosening the soil in irrigated agriculture due to the high density of the soil and its increased humidity. When cultivating crops in the Lower Volga region for the irrigation season, 5-6 irrigations are carried out with rates from 200 to 800-1200 m ³ / ha. Because of this, the density of the soil increases from 0.8-0.9 to 1.3-1.8 g / cm ³ , which is unacceptable both from the conditions of plant growth and the absorbency of the soil. After harvesting crops in arable and subsurface horizons, soil moisture reaches 26-32%. Therefore, the described passive rotary cultivator with its cultivating elements does not produce proper crumbling of the soil.

 The closest device of the same purpose to the proposed object according to the totality of features is a device for non-mold soil cultivation, containing slitheree, on which, through flexible traction, a drainer with a collapser is coaxially fixed, in which, in order to improve the quality of soil processing and simplify the design, the drainer is equipped with an angle adjustment mechanism setting the axis of its rotation, made in the form of an elastic element and a plate, which is placed in a longitudinal groove made in the rear edge of the slit, and one the end of the elastic element is connected to the trainer, and the other to the plate, while the trainer is rigidly fixed to the axis of the arch breaker [2] This device we have adopted as a prototype.

 The reasons that impede the achievement of the required technical result when using the known device include low quality loosening and a small loosening zone.

 The objective of the invention is to simplify the design and improve the quality of tillage.

 EFFECT: simple means of increasing the degree of crumbling of re-compacted soils.

This is achieved by the fact that in the known device containing slitheree, on which, using flexible traction, a drainer is coaxially mounted with a collapser of arches in the form of ripping elements rotatable in the transverse vertical plane with cutting edges made on logarithmic spirals and located on the surface of the truncated cone, at remote the ends of the ripping elements are inclined disks provided with perimeter single-sided blades, while the disks are inclined to the cutting edges of the ripping elements under a blunt at scrap; the plane of each disc is deviated from the cutting edge of the ripping elements at an angle of 135-145 ^o ; the cutting edge on the blades of the inclined discs is formed by sharpening the peripheral edge of the back face at an angle of 20-30 ^o ; slitherez is equipped with seats for mounting on frames of simple and complex tillage machines; a replaceable reverse bit is placed on the toe of the sclerae; the flexible rod is made of two articulated rolls interconnected by a vertical axis of rotation; one of the articulated forks is aligned with the drainer; the axis of rotation of the breaker of the arches is equipped with a cavity for filling grease and the possibility of supplementing the grease by means of communicating channels and a grease nipple at the free end of the axis of rotation of the breaker; the cutting edge of the ripping elements of the arch breaker is formed by sharpening the outer edge of the ripping element with the angle of inclination of the plane of the sharpening to the inner edge in the range of 21-25 ^o ; the inner face of the ripping element is deviated from the radial plane of the arch breaker at an angle of 45-55 ^o .

 Due to the fact that the remote ends of the ripping elements are equipped with inclined disks, the above technical result is achieved.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the invention, allowed to establish that the applicant has not found an analogue characterized by features identical to all the essential features of the invention.

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

 To verify the conformity of the proposed invention to the requirement of "inventive step", the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the prototype of the proposed invention, the results of which show that the present invention does not explicitly follow the prior art, since from the prior art determined by the applicant, it is not revealed the impact provided by the essential features of the invention reobrazovany to achieve a technical result.

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

In FIG. 1 shows a soil cultivator, side view; figure 2 is the same, plan view; figure 3 section along aa in figure 1, a diametrical section of a flexible rod and collapse arches; in Fig.4 cross-section along BB in Fig.1, the connection of a removable working bit with the lower part of cherez; in Fig. 5 a section along BB in Fig. 1, a cross-section of the ripping elements of the arch breaker; in Fig.6 cross-section along G-G in Fig.1, the placement of the inclined discs at the remote ends of the ripping elements;
The method is as follows. The soil cultivator contains slitherez 1, on which, through a flexible rod 2, the drainer 3 is coaxially fixed with a collar 4 of arches (Figs. 1 and 2).

Slider 1 is made of strip steel 180 mm wide and 25 mm thick. The upper part of the crevice 1 is equipped with seats 5 for mounting on the frames of simple tillage machines and an additional bracket 6 for attaching to the frame beams of complex tillage machines. In the additional bracket 6 there is a technological hole 7 for connecting the slitherese 1 by means of a vertical pin to the frame of the tillage machine. The diameter of the hole 7 is 31 mm. Seats 5 are represented by two rows of holes with a diameter of 31 mm with a pitch between holes in rows of 50 mm and an intercenter distance of 120 mm. The bracket 6 is placed on the back face of the slitheree 1. The frontal part of the slitheree 1 is equipped with an inclined cutting edge 8 formed by a dihedral blade 9 with an angle of sharpening of the slit 1 not more than 15-18 ^o . The initial angle of inclination of the cutting edge 8 to the direction of movement equal to 70 ± 2 ^{o is} formed by narrowing the bottom of the slit 1 and shifting the holes of the back row of the seat 5 from the top face 10 by 50 mm compared with the holes in the front row (Fig. 1). The lower front part 11 of the slitherese 1 is made along an arc of a circle with a radius of 150 mm. On the front curved section 11 there is a replaceable reverse bit 12. The bit 12 to the bottom 11 of the slitheree 1 is fixed by two different-sized bolts 13 and 14 with a countersunk head and a diameter of 12 mm. The bit 12 is equipped with two blades 15 and 16 with a sharpening angle of 20 ± 3 ^o . The bit 12 is made arcuate, the outer surface of which is associated with a curved section of the crepuset 1. The thickness of the bit 12 is 12 mm, and its width is 50 mm. Bit material 12 Steel 65G GOST1050-74. Bit 12 is confirmed by volume hardening up to 40-45 НRCэ. As one of the blades 13 or 14 deteriorates, the bit 2 can be presented in a different position for working with an unworn blade. The lower end of the slitherese 1 is equipped with two supporting platforms 17 and 18 to accommodate the flexible rod 2.

The breaker 4 of the arches is located behind the slit hole 1 and is made in the form of ripping elements 19 rotatable in the transverse vertical plane with cutting edges 20 made in logarithmic spirals and located on the surface of the truncated cone. The ripping elements 19 are made of strip carbon steel. The ripping element 19 along the length of the breaker 4 arches made with a variable cross-section. The front parts of the ripping elements 19 are welded together in equal steps along the perimeter of the cylindrical sleeve 21 of the breaker 4 arches. The cutting edge 20 of the ripping elements 19 of the breaker 4 of the arches is formed by sharpening the outer edge 22 of the ripping element 19 with an angle of inclination of the plane of sharpening aa to the inner edge 23 within 21-25 ^o . The inner face 23 of the ripping element 19 is deviated from the radial plane bb of the breaker 4 arches at an angle of 45-55 ^o .

At the remote ends of the ripping elements 19, inclined disks 24 are provided, provided with perimeter single-sided blades 25. The planes of the disks 24 are mounted at an obtuse angle b to the cutting edges 20 of the ripping elements 19. The plane of each disk 24 is deviated from the tangent cc to the cutting edge 20 at a preferred angle in the range of 135-145 ^o . The cutting edge 26 of the single-sided blades 25 of the inclined discs 24 is formed by sharpening the peripheral edge of the rear face at an angle a 20-30 ^o .

 Flexible rod 2 (Fig.1-3) is made of two hinged forks 27 and 28, mutually connected by a vertical axis 29 of rotation. The front fork 27 is connected by a horizontal axis 30 to the supporting platforms 17 and 18 of the slitherese 1, which ensures rotation of the caving tool 4 of the arches in a longitudinally vertical plane. The rear fork 28 is combined with the drainer 3. Inside the drainer 3, by means of two wedge pins 31, the axis 32 of rotation of the breaker 4 of the arches is fixed. Free rotation of the cylindrical sleeve 21 on the axis 32 is provided by a sliding bearing 33. The axis of rotation 32 of the breaker 4 is provided with a cavity 34 for filling grease and the possibility of supplementing the grease through communicating channels 35 and 36 with a grease nipple 37 on the free end of the axis of rotation 32 of the breaker 4.

 The soil cultivator works as follows.

 The slit rack 1 with seats 5 and a pair of bolts with a diameter of 30 mm is attached to the frame of simple tillage implements (for example, the KPG-2-150 deep-ripper plane cutter, KPP-2.2 trailed plane cutter, RN-80 ripper, etc.). When performing operations with combined operations, slider 1 is attached to the frame beam of complex tillage machines by a pair of bolts in one of the pairs of seats 5 and a pin placed in the vertical hole 7 of the additional bracket 6.

 With the steady movement of the tillage implement, the cutting edge 8 of the blade 9 of the slithereal 1 cuts a vertical gap in the arable and subsurface horizons. Blade 14 of chisel 12 breaks the plow sole and soil monolith. Mounted behind the slit 1 through the flexible traction 2, the trainer 3 shifts the soil structures in radial directions. The sleeve 21 of the breaker of the arches 4 enters the drain, and the cutting edges 20 of the ripping elements 19 cut into the soil aggregates. The progressive movement of the slit 1 leads to the rotation of the caving of the arches 4 on the axis 32 in the direction opposite to the logarithmic spiral. Loosening elements 19 carry out loosening of soil at the border of arable and subsurface horizons.

 By increasing the frontal working surface at the small base of the cone and lowering it at the large base, the rotation rate of the working body increases, while the specific energy consumption per unit volume of loose soil decreases. Inclined disks 24 at the ends of the ripping elements 19 increase the torque of the breaker 4 arches. Rotating inclined discs 24 are intensive crumbling soil monolith. The cutting edges 26 of the blades 25 of the inclined disks 24 produce additional grinding of the soil aggregates and in a larger volume than the loosening elements 19. Subsoil loosening provides aeration of the soil horizons in irrigated agriculture and increases the absorption capacity of the soil.

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

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

Claims (10)

 1. A soil cultivator containing slitherer, on which, through flexible traction, a drainer is coaxially mounted with a collapser of arches in the form of ripping elements in the transverse vertical plane with cutting edges made in logarithmic spirals and located on the surface of a truncated cone, characterized in that on remote the ends of the ripping elements are inclined disks provided with perimeter single-sided blades, while the disks are inclined to the cutting edges of the ripping elements at an obtuse angle. 2. The cultivator according to claim 1, characterized in that the plane of each disk is deviated from the cutting edge of the ripping elements at an angle of 135,155 ^o . 3. The cultivator according to claim 1, characterized in that the cutting edge on the blades of the inclined discs is formed by sharpening the peripheral edge of the back face at an angle of 20 30 ^o .  4. The cultivator according to claim 1, characterized in that the slitherer is equipped with seats for mounting on frames of simple and complex tillage machines.  5. The cultivator according to claim 1, characterized in that a replaceable reverse bit is placed on the toe of the sclerosis.  6. The cultivator according to claim 1, characterized in that the flexible rod is made of two articulated forks mutually connected by a vertical axis of rotation.  7. The cultivator according to claims 1 and 6, characterized in that one of the articulated forks is combined with the drainer.  8. The cultivator according to claim 1, characterized in that the axis of rotation of the arrester of the arches is provided with a cavity for filling grease with the possibility of supplementing the grease through communicating channels with a grease nipple at the free end of the axis of rotation of the arrester. 9. The cultivator according to claim 1, characterized in that the cutting edge of the ripping elements of the arch breaker is formed by sharpening the outer edge of the ripper with an angle of inclination of the sharpening plane to the inner edge within 21 - 25 ^o . 10. The cultivator according to claim 1, characterized in that the inner face of the ripping element is deviated from the radial plane of the arch breaker at an angle of 45 55 ^o .

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