RU1436291C - Method and implement for three-tier cultivation of soil - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: plow bottom of lower tier 3 undercuts the soil horizon B₂, lifts it together with the soil layer A″ disposed thereon and places them without overturning, on top of the soil horizon B₁ and soil layer A′. The soil layer A′ is thrown on the furrow bottom by an additional working member 1 of the share-moldboard type and the soil horizon B₁ is placed on top of it by the conveyor-type working tool of the middle tier, consisting of a share 6 traction link 7, sprockets 8, and cutting-and-conveying members 9. An additional working member 16 is suspended from frame 1, spring-loaded by articulated joint ad bears on the soil through a feeler wheel which provides for the separation of the soil layer. EFFECT: protection against harmful substances falling on soil surface, and preservation of soil fertility. 3 cl, 4 dwg

Description

 The invention relates to agricultural production and can be used for three-tier treatment, for example, of sod-podzolic soils in the conditions of the deposition of radioactive and other harmful substances on the surface. The method and device can also be used to treat solonetzic soils during radioactive contamination of the surface.

 The aim of the invention is to increase soil fertility in the presence of harmful substances on its surface and preservation of fertility.

 Figure 1 shows a diagram of the movement of soil horizons during tillage; figure 2 diagram of the tools for tillage, rear view; figure 3 is the same, a top view; figure 4 installation diagram on the frame of an additional working body.

The technological scheme of the movement of soil horizons of the three-tier tillage (figure 1) is as follows. Placement of soil horizons before tillage: A plow horizon. On the arable horizon, the upper, smaller in thickness, part A of horizon A is identified, which contains harmful, for example, radioactive substances deposited on its surface, and the lower, larger in thickness, part A. Below is the podzolic horizon B ₁ and below it is illuvial horizon B ₂ (or part of it). After cultivating the soil, the location of the soil horizons will be as follows (from top to bottom): a large part of the thickness A of the arable horizon A, laid without turning the bed; illuvial horizon B ₂ (or part of it); podzolic soil horizon B ₁ ; the smaller part A of the arable horizon A, including harmful substances and embedded below the main root zone.

 The tool for three-tier tillage contains a frame 1, support wheels 2, a plow ploughshare-dump body of the lower tier 3 with a stand 4. The depth of travel of the ploughshare-dump body of the lower tier 3 is adjusted by changing the position of the support wheels 2 relative to the frame. A knife 5 is mounted on the frame (of a disk or cuttings type), which is offset from the field edge of the plow-heap body of the lower tier 3 towards the non-arable field or the working width L of the latter. Behind the plow body of the lower tier, a working body of the middle tier is installed, consisting, for example, of an additional ploughshare 6 adjustable in height and an active conveyor-type cultivator height-adjustable. The conveyor-type cultivator has traction links 7 (for example, in the form of chains) mounted on sprockets 8. Vertical cutting and transporting elements are attached to the traction links 9. The traction links are driven by a shaft 10 mounted in bearings 11 and receiving rotation from the drive mechanism 12, associated with the tractor PTO. Above the additional ploughshare 6 at the level of the furrow wall in the direction of movement on the hinge 13, a reflector 14 with a spring 15 is installed. The hinge is mounted on the frame, and the spring is between the frame and the reflector. Between the body of the lower tier and the working body of the middle tier, an additional working body 16 of the plow-dump type is installed, offset from the field edge of the plow body of the lower tier. The additional working body is rigidly connected to the ridge 17, which is pivotally connected to the frame of the gun. The bracket 18 of the gauge wheel 19 is rigidly fixed on the bed. Between the frame 1 and the gauge 17 is installed an elastic element 20. The depth of travel of the additional working body is adjusted by rearranging the bracket of the gauge wheel relative to the bed (adjustment is not shown in the drawings).

When the tool is working, after passing the plow-blade dump body of the lower tier 3, a groove with a vertical wall remains at the full processing depth A + B ₁ + B ₂ , where A = A '+ A ". Knife 5, offset from the field edge of the plow body of the lower tier 3 to the working width L of the latter, the arable horizon A (A '+ A ") cuts in the vertical plane. The next additional working member 16 of the plow-blade type then cuts off the upper, smaller part A 'of the arable layer A and shifts it, dropping it down to the bottom of the furrow. The depth adjustment of the additional working body 16 is achieved by moving along the height of the copying wheel 19 on the bracket 18. The copying wheel 19, the articulated connection of the bed 17 with the frame 1 and the presence of an elastic element between the frame 1 and the bed 17 provide copying of the soil surface profile by the additional working body 16. The ploughshare 6, set to the depth of arable horizon A, cuts and loosens the lower, thicker layer A ″ of this horizon. The cutting-transporting elements 9, which are installed under the ploughshare 6 and receive movement through the traction links 7, sprockets 8, shaft 10 from the mechanism drive 12, intensively loosens the entire podzolic horizon B ₁ to the capture width of the ploughshaft-dump body of the lower tier 3 and dump it to the bottom of the furrow on the upper, smaller part A 'of the arable horizon A containing the harmful substances laid there earlier. the sweeping depression under the influence of gravity drops the large part A "of the arable horizon A, previously cut off in the vertical plane by the knife 5 and supported from falling into the furrow by a vertical deflector 14 with a spring 15.

When the plow body of the lower tier 3 moves, horizon В _{2 is} cut, crumbled and, together with the larger part A located on it, rises upward, simultaneously shifts to the right and is laid over the soil horizon B ₁ , under which there is the upper, smaller part A of the arable horizon AND.

 The upper part A of the arable horizon containing radioactive substances can be pretreated with neutralizing materials prior to the operation of the implement.

 Thus, the placement of the upper surface layer of soil contaminated with harmful substances below the main zone of distribution of the root system of plants will increase soil fertility.

Claims (3)

 1. The method of three-tier tillage according to ed. St. NN 1338121, characterized in that, in order to preserve the fertility of the soil in the presence of harmful substances on its surface, the upper soil layer before laying it on the lower soil layer is divided into two parts unequal in thickness, and the upper, smaller part of the processed upper soil layer they are displaced to the bottom of the furrow before displacement of the middle soil layer into it.  2. The tool for three-tier tillage according to ed. St. NN 1338121, characterized in that, in order to preserve the fertility of the soil in the presence of harmful substances on its surface, the tool has an additional working body of the plough blade type, which is located above and in front of the horizontal knife and is placed between the vertical knife and the vertical reflector plate, while the share additional working body is installed at an angle to the direction of movement opposite to the angle of installation of the horizontal knife.  3. The tool according to claim 2, characterized in that the additional working body is connected to the frame by means of an articulated spring-loaded leash with a copy wheel.

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