RU2267891C1 - Solonetz soil amelioration method and apparatus - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method involves providing mechanical tillage of soil; undercutting soil layer of solonetz complex, said layer having section in the form of segments of genetic top fertile layer, solonetz layer and saline layer; providing trough-shaped ditch; raising layer above ditch and crumbling; separating dusty, erosion-dangerous and agronomically valuable fractions at intensive mixing thereof onto ditch bottom and laterally transporting large soil aggregates of 10-30 cm diameter and placing onto surface of mixture of small-sized fraction of top fertile, solonetz and saline layers placed onto bottom of trough-shaped ditch provided during previous passage. Apparatus has bar with working tools fixed thereon. Front working tool is arranged in upper tier. Middle and lower part working tools are formed as mellowers. Tillage tool is equipped with separator and shield. Separator has sequentially arranged drive rotors whose shafts of rotation are arranged in parallel with direction of advancement of tillage tool. Middle tier mellower is mounted rearward of and above lower tier mellower, which is made in the form of inclined tines mounted on front working tool. Front working tool is made in the form of ring from steel tube of large diameter. Ring is equipped at its front part with detachable blade and suspension brackets with fingers.

EFFECT: reduced power consumption and labor intensity, increased quality of ameliorative soil tillage.

8 cl, 9 dwg

Description

The invention relates to methods for improving the physical properties of the soil and can be used in agriculture.

A known method of reclamation of solonetzic soils, including the introduction of an ameliorant and mechanical tillage, in which, in order to reduce the complexity, a reduced carbon dioxide is used as an ameliorant; carbon dioxide is introduced into the soil to the depth of the solonetzic horizon (SU, copyright certificate No. 704578. Mcl ^2. A 01 No. 7/00. Method of reclamation of solonetzic soils / V.I. Karpenko, V.I. Volochaev, G.P. . Tokarev (USSR) .- Application No. 2575014 / 30-15; claimed on 01.01.1978; publ. 12.25.1979, Bull. No. 47).

The disadvantages of the described method, which we adopted as the closest analogue in terms of the method, are the low efficiency of reclamation of solonetzes with carbon dioxide in regions with an acute deficit of soil moisture.

It is known a tool for processing solonetzic soils containing a beam with working bodies located on it, the front working body located in the upper tier and made in the form of a plow body with an elongated blade, and the working bodies of the middle and lower tiers made in the form of cultivators, and the working body of the lower the tier is made with a shortened dump, in which, in order to reduce energy consumption and improve the quality of processing solonetzic soils, a middle tiller is placed along the beam between the front working body and the lower cultivator him tier and is made in the form of a plow body with a shortened blade, while the elongated blade of the front plow body has a helical surface for moving the formation through the previous furrow (SU, copyright certificate No. 1435169. A1. M.kl ^4. A 01 B 13/14. A tool for processing solonetzic soils / A.Kh. Morozov, Yu.V. Drobyshev, S.V. Novokshchenov (USSR) - Application No. 4098848 / 30-15; declared on 05/20/1986; publ. 11/07/1988, Bull. No. 41).

To perform the process described by the tool requires large energy costs. The disadvantages of the described tools also include the low efficiency of land reclamation.

The essence of the claimed invention

The problem to which the claimed invention is directed is to improve the physical properties of solonetzes.

The technical result is a reduction in the energy intensity of the process and a reduction in the terms of reclamation of solonetzic soils in regions with an acute deficit of soil moisture.

The specified technical result in terms of technology is achieved by the fact that in the known method of reclamation of solonetzic soils, including mechanical treatment, according to the invention, the formation is cut with a section in the form of a segment from the genetic upper fertile, solonetzic and salt horizons, forming a grooved ditch, the formation is raised above ditch and crumble, dusty, erosion-hazardous and agronomically valuable fractions are separated with vigorous stirring at the bottom of the ditch, and large soil aggregates with a diameter of 10 ... 30 cm transpo They are merged sideways and laid on the surface of a mixture of a fine fraction of the upper fertile, solonetzic and saline horizons laid on the bottom of the grooved ditch made in the previous approach.

The specified technical result in terms of the device is achieved by the fact that in a well-known tool for processing solonetzic soils containing a beam with an arrangement of working bodies on it, the front working body is located in the upper and the working bodies of the middle and lower tiers are made in the form of cultivators, according to the invention , it is equipped with a soil separator and a shield made in the form of sequentially installed drive rotors with rotation axes parallel to the direction of movement installed behind and above the middle tiller a, made in the form of a drive rotor, the axis of rotation of which is installed perpendicular to the direction of movement, while the middle tiller is mounted behind and above the lower tier ripper, made in the form of inclined racks mounted on the front working body, made in the form of a ring provided on the front parts with a detachable blade, hinge brackets with fingers, and the drives of the cultivator of the middle tier and the soil separator are made in the form of bevel angular gears kinematically connected by means of cardan a telescopic PTO shaft of the tractor and the intermediate shaft, wherein the drive rotors soil separator connected chain closed contours, and a driving shaft connected to a separator provided with Hooke's joint with additional shaft bevel gear driving the rotor ripper middle tier.

The invention is illustrated by drawings.

Figure 1 shows the process of undercutting and lifting a formation from the genetic upper fertile, solonetzic and saline horizons with the formation of a ditch with a section in the form of a segment.

Figure 2 shows the processes of crumbling horizons and separation of dust, erosion-hazardous and agronomically valuable fractions from them, followed by stacking with vigorous stirring at the bottom of the opening ditch and transporting large soil aggregates with a diameter of 10 ... 30 cm to a nearby ditch made at previous approach.

Figure 3 shows a transverse vertical section of a layer of solonetzic soils after treatment.

Figure 4 shows a device for processing solonetzic soils, a plan view.

Figure 5 - section aa in figure 4, a longitudinally vertical section of a soil separator with a shield, a cultivator of the middle and lower tiers and the front working body.

Figure 6 - section bB in figure 5, a horizontal section of the front working body and the types of cultivators of the lower and middle tiers.

In Fig.7 is a section bb In Fig.6, a section of the fang of the rotor of the ripper of the middle tier.

In Fig.8 is a view D in Fig.4 is a rear view of the implement for processing solonetzic soils.

In Fig.9 - section GG in Fig.4, a transverse vertical section of the soil separator.

Information confirming the possibility of implementing the claimed invention are as follows.

The claimed method of reclamation of solonetzic soils includes mechanical tillage. At the solonetz complex, layer 1 is cut with a section in the form of a segment from the genetic upper fertile horizon 2, solonetz horizon 3, and salt horizon 4 (Fig. 1). When cutting the formation 1 form a grooved ditch 5, which is able to accumulate any type of precipitation on both flat and complex terrain. Plast 1 is raised above the ditch 5 and crumble. Dusty, erosion-hazardous and agronomically valuable fractions 6 are separated with vigorous stirring at the bottom of the ditch 5. Fractions 6 are homogenized even with a small amount of moisture available. This leads to the entry of soil components to desalinization. Broken horizons 2-4 in the form of large soil aggregates 7 with a diameter of 10-30 cm are transported to the side and laid on the surface of the mixture of fractions 6, thus breaking the screen from the solonetz horizon 3, and soil aggregates 7 are placed in a new place, that is, at the bottom grooved ditches made in the previous approach. The voids between the soil aggregates 7 facilitate the access of precipitation in the form of rain, snow, hoarfrost to fractions 6, the grooved ditch 5 accumulates excess moisture and replenishes the soil moisture in the root horizon. All this allows us to reduce the time of desalinization of solonetzes and to obtain sustainable crop yields.

A device for processing solonetzic soils contains a beam with the location of the working bodies 9, 10, 11. The front working body 9 is located in the upper tier. The working bodies 10 and 11 of the middle and lower tiers are made in the form of rippers (see figure 4-9).

The device is equipped with a soil separator 12 and a shield 13. The shield 13 of the separator 12 is provided with the possibility of angular rotation on the bracket 14 of the supporting frame 15 of the separator 12. The separator 12 is made in the form of serially mounted drive rotors 16, 17, 18, 19, 20, 21, 22, 23 , 24, 25. The axis of rotation of the rotors 16-25 are mounted on the supporting frame 15 parallel to the direction of movement. Each rotor 16 (17-25) on the supporting frame is mounted by means of bearing bearings 26 (figure 5). The rotors 16-25 of the separator 12 are mounted at an angle of 10-35 ° to the horizon. Each rotor 16 (17-25) of the soil separator 12 has fangs 27 mounted between the fangs 27 of adjacent rotors 16-25 (see figure 4). Each rotor 16-25 of the soil separator has at least a pair of blades 28 (see Fig. 9). A shield 29 is mounted on the supporting frame 15 of the separator 12, eliminating the transfer of clods outside the separator 12 (see Figs. 4 and 5). The separator 12 is installed behind and above the ripper 10 of the middle tier.

The cultivator 10 of the middle tier is made in the form of a drive rotor. The axis of rotation of the ripper 10 is set perpendicular to the direction of movement. The rotor of the cultivator 10 is mounted in the bearing bearings 30 and 31 (see Fig.6). The rotor of the cultivator 10 of the middle tier is mounted behind and above the cultivator 11 of the lower tier.

The cultivator 11 of the lower tier is made in the form of inclined racks 32 and mounted on the front working body 9.

The front working body 9 is made in the form of a ring from a steel pipe with a diameter of 1400 m with a wall thickness of 16 ... 22 mm. A detachable blade 33, a hinge bracket 34, 35, 36 with fingers 37 are located on the front of the ring of the working body 9.

The tool is equipped with support wheels 38 (see figure 4) mounted on the front working body 9.

The rotor of the cultivator 10 of the middle tier is equipped with fangs 39. The working part 40 of the fangs 39 has an elastically deformed element. Differentially striking them from the bottom up to horizons 4, 3, and 2 after undercutting of reservoir 1.

The drives of the cultivator 10 of the middle tier and the soil separator 12 are made in the form of bevel angular gears 41, 42 and 43. The gearboxes 41-43 are kinematically connected via the PTO shaft 44 to the PTO of the aggregated tractor and the intermediate shafts 45 and 46.

The drive rotors 16-25 of the soil separator 12 are connected by closed chain circuits 47 located on the twin sprockets 48. The drive shaft 49 of the soil separator 12 is connected by an additional shaft 50 equipped with a Hook joint with a bevel gear 43 of the rotor rotor drive 10 of the middle tier.

A device for processing solonetzic soils works as follows.

The tractor to be aggregated is connected by the linkage rods 37 with the brackets 34, 35 and 37 on the front of the front working body 9. The telescopic driveshaft 44 of the device with a clean bolt with a diameter of 14 mm is connected to the tail of the power take-off shaft (PTO). PTO rotation speed - 9 s ^-1 . When the steady movement detachable blade 33 cut the layer 1 having a section in the form of a segment. The trimmed layer 1 along the inclined racks 32 of the cultivator 11 of the lower tier is directed to the cultivator 10 of the middle tier. The working parts 40 of the fangs 39 of the drive rotor layer 1 is destroyed. Dusty, erosion-hazardous and agronomically valuable fractions 6 are separated into a grooved ditch 6. The particle sizes of fraction 6 are capable of homogenizing when exposed to natural sediments. Lumps with a diameter of 10-30 cm enter the soil separator 12. Lobes are transported by rotating rotors 16-25 to the flap 13 and dumped into the grooved ditch 6. Fangs 27 or blades 28 of the driving rotors 16-25 produce additional crumbling of large clods of salt and solonetzic horizon 3 and upper fertile horizon. The grooved shape of the channels 8 contributes to the accumulation of moisture and eliminates the flow of sediments. The accumulated moisture is able to saltize the solonetzic horizon 3 with salts from horizon 4. The uniform application of agronomically valuable and fertile particles from horizon 2 ensures the resumption of soil formation processes.

Thus, the described set of essential features ensures the achievement of a technical result. Reducing energy costs is achieved by the fact that the process of destruction of the reservoir 1 occurs in a different way. The layers are bent and torn. This requires 7-12 times less energy than compression deformation.

The described technology of processing solonetzic soils will provide accelerated restoration of fertility.

Claims (8)

1. The method of reclamation of solonetzic soils, including mechanical tillage, characterized in that the layer is cut with a section in the form of a segment from the genetic upper fertile, solonetzic and saline horizons, forming a grooved ditch, the layer is raised above the ditch and crumbled, dusty, erosion hazardous and agronomically valuable fractions are separated with vigorous stirring at the bottom of the ditch, and large soil aggregates with a diameter of 10 ... 30 cm are transported sideways and laid on the surface of a mixture of a fine fraction of the upper fruit native, solonetz and salt horizons laid on the bottom of the grooved ditch, performed with the previous approach. 2. A device for processing solonetzic soils, containing a beam with working bodies located on it, the front working body located in the upper tier, and the working bodies of the middle and lower tiers made in the form of cultivators, characterized in that it is equipped with a soil separator and a shield made in the form of sequentially mounted drive rotors with rotation axes parallel to the direction of movement installed behind and above the middle tiller, made in the form of a drive rotor, the rotation axis of which is installed It is perpendicular to the direction of movement, while the middle tiller is mounted behind and above the lower tier ripper, made in the form of inclined racks mounted on the front working body, made in the form of a ring equipped with a detachable blade on the front part, hinge brackets with fingers, and the cultivator drives the middle tier and the soil separator are made in the form of bevel bevel gears kinematically connected by means of a telescopic driveshaft with a tractor power take-off shaft and intermediate shafts, and the drive rotors of the soil separator are connected by closed chain contours, and the drive shaft of the separator is connected by an additional shaft equipped with a Hook joint with a bevel gear of the drive of the rotor rotor of the middle tier. 3. The device according to claim 2, characterized in that the rotor of the ripper of the middle tier is equipped with canines, the working part of which has an elastically deformable element. 4. The device according to claim 2, characterized in that each rotor of the soil separator has fangs installed between the fangs of adjacent rotors. 5. The device according to claim 2, characterized in that each rotor of the soil separator has at least a pair of blades. 6. The device according to claim 2, characterized in that it is equipped with support wheels mounted on the front working body. 7. The device according to claim 2, characterized in that the separator plate is mounted with the possibility of angular rotation. 8. The device according to claim 2, characterized in that the separator rotors are mounted at an angle of 10-35 ° to the horizontal.

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