RU2113081C1 - Soil loosener - Google Patents

Abstract

FIELD: agricultural engineering; tillage machine working tools for deep digging in irrigated soils with plant and root residues. SUBSTANCE: loosener has vertically installed knife, deforming members and bar point on lower cut. Deforming members and bar point on knife are fixed in position. Knife is made up of two plates with double edge cutting blades at sides connected to each other. Cutting blades are aligned and installed at different angles of inclination relative to bar point axis. Deforming members have passive and resilient parts. Passive members on side surfaces of plates are formed by hollow semiellipsoids of revolution. Resilient members are connected by fasteners in form of threaded plugs with forks on one end and are mated with holes on rear part of knife through axles and at other side, either with coils of cylindrical extension springs, or equal resistance springs, or oblique extension springs. Diameter of springs prevail over maximum diameter of cross section of passive deforming member. EFFECT: improved quality of soil tillage. 6 dwg

Description

 The invention relates to agricultural machinery, in particular to working bodies for deep loosening of irrigated soils saturated with plant and root residues.

 A working body of a tillage machine is known, including a stand, a cutting blade and an elastic element, in which, in order to increase the efficiency of soil crumbling in the mode of self-oscillations of the working body, its cutting blade is mounted on the stand by a horizontal hinge with the formation of an equal-arm lever, and the elastic element springs up its upper larger shoulder [one].

 The described working body is ineffective with deep loosening of the soil, because at high loads, a spring-loaded element placed between the stand and the cutting blade becomes only a stop.

 A knotter working body is also known, comprising a stand made in the form of slitherese with a drainer at its end, in which, in order to reduce traction drag, the drainer has a tip, a support cup, and elastic rods, some of which are mounted in a support cup mounted on the stand, and others located in the tip, with one elastic rod placed coaxially to the glass and the tip and mounted on the latter [2].

 When working on irrigated soils saturated with root residues, there is clogging by the soil and the roots of the space between the elastic rods. In this case, the tip, the drainer and the glass are mutually locked. Hanging roots on the drainer sharply increase the traction resistance of the working body, and instead of drains increase the traction resistance of the working body, and instead of drains, large open furrows are formed.

 In addition, a subsoil cultivator is known, including a slot-rack, equipped with a chisel and flaps, in which, in order to increase the capacity of the bottom of the slit by loosening it and to reduce the energy consumption, the cultivator is equipped with a runner mounted on the toe and tail of the slot-rack with lancet mounted one after another legs with a bend vertically; the forward lancet legs are placed with a bend up, and the rear down [3].

 The reasons that impede the achievement of the required technical result when using the known device include the low efficiency of loosening soils in irrigated agriculture on fields occupied by perennial crops, such as alfalfa, pasture, etc.

 The closest device of the same purpose to the claimed object according to the totality of features is a working body for soil slitting, containing a vertically mounted knife, on the lateral surfaces of which there are ribs for wall compaction, in which, in order to increase the uniformity of the compaction of the walls of the gap along its height by performing the walls of the molehills the ribs are made in the form of semi-cones, the top of which is placed on the blade of the knife, while the semi-cones located on one side surface of the knife are shifted in height relative to respect partial-conical bodies positioned on the other side surface of the blade, and the half-cone base diameter greater than the distance between adjacent partial-conical bodies [4].

 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 crumbling soil and clogging with plant and root residues.

 The invention consists in the following.

 The problem to be solved by the claimed invention is directed is intensive crumbling of soil in irrigated fields from under perennial field crops.

 The technical result is a decrease in traction resistance, self-cleaning of the working body and a high degree of crumbling of re-compacted soil layers at great depths.

 The specified technical result during the implementation of the invention is achieved by the fact that in the known working body for loosening the soil, including a vertically mounted knife, on the lateral surfaces of which there are deformers, the cultivator is equipped with a chisel in the form of a retractable rod on the lower cut and means for fixing on the knife a bit and deformers, the knife is made of two interconnected plates with dihedral blades on the sides, the cutting edges of which are aligned and installed with different angles of inclination of its axis ota, knife deformers contain passive and elastic parts, passive parts on the lateral surfaces of the plates are formed by hollow semi-ellipsoids of revolution, the elastic parts are connected by fastening means in the form of threaded plugs with forks at one end and mated with holes on the back of the knife by axes, and on the other hand - or with coils of cylindrical tensile springs, or springs of equal resistance, or oblique tensile springs, the diameter of the springs prevailing over the largest cross-sectional diameter of passive deformations torus.

 Due to the fact that the cultivator is equipped with additional deformers in the form of tension springs and installed behind the main deformers, 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 claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention.

 Therefore, the claimed invention meets the requirement of "novelty."

 To verify compliance of the claimed invention with 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 claimed invention, the results of which show that the claimed invention does not follow explicitly from the prior art, since the level of technology defined by the applicant, it is not revealed the impact provided by the essential features of the claimed invention transformed tion to achieve a technical result.

 Therefore, the claimed invention meets the requirement of "inventive step".

 The invention is illustrated by drawings, where in FIG. 1 shows a soil cultivator, side view; in FIG. 2 - same, plan view; in FIG. 3 - the same front view; in FIG. 4 is a section AA in FIG. 1, the main soil deformer in the form of a hollow semi-ellipsoid of revolution and the additional deformer in the form of a cylindrical tension spring; in FIG. 5 is a section AA in FIG. 1, the relative position of the main deformer and the additional deformer in the form of springs of equal resistance; in FIG. 6 is a section AA in FIG. 1, sequential placement of the main deformer and the additional deformer in the form of an oblique tension spring.

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

 The soil cultivator (see Fig. 1 - 3) contains a vertically mounted knife 1, a chisel 2, the main deformers 3 and additional deformers 4.

 The knife is made of two interconnected plates 5 and 6.

On the front part 7 of the plates 5 and 6, one-sided blades 8 and 9 are made (see Figs. 4-6). The sharpening angle of the blades 8 and 9 is made equal to i ₁ = 11 - 13 ^o . The cutting edges 10, 11 and 12 of the blades 8 and 9 are mutually aligned and form the cutting edge of the dihedral blade of the knife 1 with a sharpening angle i ₂ = 22 - 25 ^o .

The lower edge 13 of the knife 1 is equipped with a chisel 2. The bit 2 is made in the form of a round retractable rod 14. The frontal section 15 of the rod 14 is equipped with an oblique cut that forms the cutting edge of the bit 2. The bit 2 on the lower cut 13 of the knife 1 is fixed by fixing means: two cylindrical pins 16 and 17, installed with a slight tightness in the coaxial holes with a diameter of 12 mm of plates 5 and 6. The axis of the rod 14 of the bit 2 is inclined at an angle β = 6-8 ^° to the horizontal. An oblique cut of the frontal portion 15 is made at an angle δ = 30-35 ^° to the axis of the rod 14 of the bit 2. The cutting edge 10 of the lower part of the knife 1 is inclined to the axis of the bit 2 at an angle β ₁ = 25 ^° . The cutting edge 11 in the front of the knife 1 is inclined to the axis of the bit 2 at an angle β ₂ = 55-60 ^° . The cutting edge 12 in the upper part of the knife 1 is inclined to the axis of the bit 2 at an obtuse angle β ₃ equal to 135 ^o . The inclination angles β ₁ , β ₂ and β _{3 of the} cutting edges 10, 11 and 12 are selected taking into account the operating conditions of the knife 1 of the soil cultivator. The lower section of the knife 1 works in the soil. The middle section of knife 1 works in soil saturated with root residues located in the arable horizon and soil. The upper portion of the knife 1 with a cutting edge 12 is placed in the upper loose soil layer saturated with plant debris, vegetative shoots of plants and weeds.

 The upper part of the knife 1 is equipped with three holes 18, 19 and 20. The holes 18 and 20 are made with a diameter of 80 mm and are designed to install the knife 1 on the bonks 21 of the frame 22 of the tillage implement. The hole 19 is made with a diameter of 32 mm for installation of a fixing bolt 28 with corresponding washers and a nut 24. The center-to-center distance of the holes 18 and 20 is made equal to 300 mm. Plates 5 and 6 are made of sheet steel 10 mm thick. Blades 8 and 9 are sprayed with a wear-resistant, especially durable material with a coating thickness of 0.6 - 0.8 mm.

In the middle part of the knife 1 with the offset from the blades 8 and 9, the main deformers 3 are made by local deformation of the material of the plates 5 and 6. When the plates 5 and 6 are mated, the deformers 3 form hollow spaces in the form of semi-ellipsoids of revolution, the long axes of which are horizontally oriented and aligned with the mating plane of the plates 5 and 6. The outer surface of the deformers 3 is smoothly mated with the side surfaces of the plates 5 and 6. The deformers 3 are 200 mm apart from each other by the height of the knife 1. With an offset back from the deformers 3, holes 20 mm in diameter are made on the back of the knife 1 for connection with additional soil deformers 4. The additional deformers 4 are made in the form of cylindrical twisted tension springs with a diameter of D ₁ equal to 150-200 mm (Fig. 4), or conical springs of equal resistance with the largest diameter D ₂ not more than 250 mm (Fig. 5), or oblique cylindrical tension springs with a diameter of the ring D ₃ (see Fig. 6). Additional deformers 4 are connected to the knife 1 by means of threaded plugs 25. The threaded plugs 25 are cast. The width of the groove in the plug 26 is 20 ± 0.5 mm. In the plug 26 of the threaded plug, coaxial holes with a diameter of 20 mm are made. Threaded plugs 25 are connected to the holes of the knife 1 by the axes 27 with a nominal hole equal to 20 mm. The axial displacement of the axes 27 in the holes of the fork 26 and knife 1 is limited by the compressed ends of the countersinks 28 at the ends of the axis 27 (see Fig. 6). On the outer surface of the threaded plugs 25 there are made semi-cylindrical grooves 29 (see Figs. 4-6), on which several turns 30 of the front part of the tension cylindrical springs are placed with an interference fit. The diameters of the tension springs D ₁ , D ₂ and D _{3 of the} additional elastic deformer 4 prevail over the largest cross-sectional diameter d _{1 of the} main passive deformer 3.

 The soil cultivator works as follows.

 When lowering the frame 22 of the tillage implement, the frontal section 15 of the bit 2 touches the surface of the field and cuts into the arable horizon with its cutting edge. Under the weight of the frame 22 and knife 1, the bit 2 penetrates into the plow sole of the irrigated area and destroys it. Due to the inclination of the frontal section 15 of the bit 2 and the cutting edge 10 of the blades 8 and 9, the knife 1 is embedded in the subsurface horizon and draws the inclined cutting edges 11 and 12 in the middle and upper parts of the knife 1. When reaching the supporting devices on the frame 22, the knife’s surface 1 adopts a stable working position. When the knife 1 is moving in the steady state, the cutting edge 12 of the blades 8 and 9 on the top of the rack cuts the stubble, plant and root residues, weed stalks and the upper arable soil layer. The inclined cutting edge 12 of the uncut plant residues engages in the arable horizon. With increasing load on the blades 8 and 9, the latter are cut and remain in the soil, and the cutting edge 12 is self-cleaning. The cutting edge 11 on the middle part of the knife 11 destroys the plow sole, cuts the roots and forms a vertical slit 2 cm wide. With further movement of the knife 1, tiered passive deformers 3 begin to act on the walls of the vertical slit, which form cylindrical drains with sealed walls with their ellipsoid surfaces of revolution . Additional soil deformers 4 are carried along the forks with axes 27 through forks 26 and threaded plugs 25. The coils of tension tensile springs abut against the walls of the drains and act on them in radial directions, breaking the soil structures intertwined with the roots of perennial plants. The tiered arrangement of elastic soil deformers 4 above the loosened soil zone formed by chisel 2 and under the loose, less compacted topsoil causes the soil layers to explode, because tensile soil structures require 8 to 10 times less effort than compression. Hanging plant roots due to winding coils 30 springs along a helical line from the surface of the deformers 4 come off without causing them to clog. Elastic deformers 4 in the form of a cylindrical tensile spring shown in FIG. 4, it is advisable to use on soils with normal humidity (not more than 20 - 24%). To increase the effectiveness of elastic deformators 4 on waterlogged soils, springs of equal resistance should be used (see Fig. 5). The increasing diameter of the coils 30 of the spring as it moves in the drain increases the degree of impact on the soil layers with the roots of the plants in them. When processing overdried soils, oblique cylindrical tension springs should be used, which also act in their lateral directions.

 This achieves high porosity in the entire volume of loosened soil, providing free passage of precipitation in the autumn-winter period and irrigation water from top to bottom to a depth of 60 - 90 cm into the loosened zone during vegetation irrigation.

In irrigated agriculture on light chestnut soils at a depth of cultivation of 60 - 70 cm, the soil density after treatment decreases from 1.7 - 1.8 t / m ³ to 0.8 - 0.9 t / m ³ . The traction resistance of the working bodies of the commercially available SchN-2-140 slot machine is 1.5-2.0 times higher than that described.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed invention:
means embodying the claimed invention in its implementation, is intended for use in agricultural machinery;
for the claimed invention, in the form 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 claimed invention in its implementation, is capable of achieving the achievement of the technical result perceived by the applicant.

 Therefore, the claimed invention meets the requirement of "industrial applicability".

Claims (1)

 A soil cultivator containing a vertically mounted knife, on the lateral surfaces of which there are deformers, characterized in that the cultivator is equipped with a chisel in the form of a retractable rod on the lower cut and means for fixing the chisel and the deformers on the knife, while the knife is made of two interconnected plates with with dihedral blades on the sides, the cutting edges of which are aligned and installed with different angles of inclination to the axis of the bit, the knife deformers contain passive and elastic parts, passive parts on the side surfaces these plates are formed by hollow ellipsoids of revolution, the elastic parts are connected by means of fastening in the form of screw plugs with forks at one end and mated with holes on the back of the knife by means of axes, and on the other hand, either with turns of cylindrical tension springs, or springs of equal resistance, or oblique tension springs, and the diameter of the springs prevails over the largest cross-sectional diameter of the passive deformer.

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