RU2183917C2 - Tillage apparatus - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: apparatus has disk cutters mounted in front part on frame, deep tillage cultivators and roll equipped with detachable plow bodies and flat hoe. Two rows of disk cutters and two rows of deep tillage cultivators are mounted on frame. Plow bodies are fixed on flat member, which is pivotally and movably joined to deep tillage cultivators. First plow body in the course of advancement of apparatus is made non-inversing to provide for placing of soil layer onto surface of adjacent right-hand furrow. Soil tilter is arranged above plow body outer with respect to the course of advancement of tillage apparatus. Soil tilter is mounted on tine fixed on flat hoe member so that its angle of inclination with respect to tine may be adjusted. Landsides are mounted on flat hoe member, at lower part along track of each deep tillage cultivator. Tillage apparatus may be used for cultivation of arable and subsurface layers. EFFECT: steady advancement of apparatus, reduced power consumption, provision for keeping natural structure of arable layer and improved tillage quality of upper soil layer. 5 cl, 10 dwg

Description

 The invention is intended for the treatment of arable and subsurface horizons of the soil and can be used in agriculture.

 Known deep-ripper, consisting of a frame, supported by wheels, on which an inclined beam is mounted, along the length of which working bodies in the form of a chisel and lancet paws are tier-mounted [1].

 A disadvantage of the known deep-ripper is that it does not provide a combination of operations of shallow waste processing and deep non-dump cultivation.

 Known working body of the tillage implement PRM-3-3, which contains a rack mounted on the frame, in its lower part are fixed plowshares mounted at an angle to the horizontal. Each ploughshare is connected to the rack by means of a plate having the shape of a helical surface. In the middle part of the rack, a plane-cutting paw is mounted, which is connected by horizontal and vertical hinges with a vertical bar, connected to the rack by a parallelogram suspension [2].

 A disadvantage of the known working body is that it does not provide the turnover of the reservoir, energy-intensive, difficult to manufacture.

 A well-known working body of a deep-ripper containing belt mounted on the rack lancet paws decreasing from the upper tier to the lower working width [3].

 The known invention provides tiered loosening of the soil, but does not perform a turnover of the upper layer, that is, the incorporation of fertilizers, green manure, in addition, does not have adjustments tiered loosening.

 Known tillage working body containing chisel working bodies, curved in the transverse plane at an angle to the horizontal, on the racks of which are fixed dump bodies, their position can vary in height [4].

 A disadvantage of the known tillage working body is that it is energy-intensive and complicated in design, in addition, it does not provide for the incorporation of green crops and the leveling of the field surface.

 A known method of primary tillage and a plow-cultivator-razlochnitel for its implementation, including mounted on the frame of the main non-moldboard cultivators with racks and located at the rear of each of them razgolitel, made in the form of a plane-cutting asymmetric paws with a rack. A revolving working body is installed in front of each main subsurface cultivator [5].

 A disadvantage of the known plow-ripper-decomposer is the high metal consumption, since the cultivator, decompressor and revolving working body have separate racks, and it does not have adjustments, which degrades the quality of the soil treatment and increases energy costs, in addition, it does not provide for sealing siderates, crumbling and leveling of the topsoil.

 Known combined tillage unit containing a plow-dump surface mounted on one rack, and a cultivator mounted behind a plough-dump surface on another rack, and the plowshoe-plank surface and the cultivator rack in the upper part are connected together and represent a single rack [ 6].

 A disadvantage of the known invention is that for each ripper a separate ploughshare-dump surface is required, therefore, with an increase in the number of rippers, the number of ploughshare-dump surfaces will also increase, which will increase the metal consumption of the structure and energy costs. In addition, the combined tillage working body does not provide for depth adjustment of the heap-plow surface and the cultivator, nor does it provide for the incorporation of crop residues, fertilizers, green manure and leveling the topsoil.

 Closest to the proposed invention by technical essence is a device containing in the front of the frame disk knives, subsoilers and a roller [7].

 A disadvantage of the known device is that it does not provide rotation of the upper soil layer with incorporation of green manure and crop residues.

 The objective of the present invention is to provide a compact arrangement of the working bodies on the frame of the device, as well as the implementation of shallow dump processing of the upper soil layer with the incorporation of green manure, crop residues with simultaneous deep non-mold loosening of the lower soil layer.

 The problem is solved due to the fact that the soil treatment device, comprising mounted on the front of the frame disk knives, deep rippers and a roller, is equipped with removable plow bodies and a flat cutting element, while the frame has two rows of disk knives and two rows of deep rippers, plow bodies are mounted on a flat-cutting element, which is pivotally-movably connected to subsoilers. The first plow body along the direction of the movement of the device is made moldless to ensure that the soil formation is laid on the surface of the adjacent furrow on the right. A soil tipper is mounted above the last plow body in the direction of travel of the device, which is mounted on a rack mounted on a plane-cutting element, with the possibility of changing the angle of inclination relative to this rack. On the ploskorezhayuschim element, below the trail of each ripper, field boards are installed.

 Figure 1 shows a General view of the device for tillage (side view); figure 2 is the same (top view); figure 3 - fastening of the cutting element and the field board to the subsoiler (side view); figure 4 is a view a of figure 3 (top view); figure 5 is a view B of figure 3 (rear view); figure 6 - arrangement of circular knives and plow bodies; Fig.7 is a diagram of the mounting of the plow body to the cutting element; in Fig.8 is a plow body (side view); in FIG. 9 - fastening of the tipper to the cutting element (side view); figure 10 is the same (rear view).

 The soil treatment device consists of a frame 1, deep-rippers 2, socks 3, a plow cutting element 4, plow removable bodies 5, support wheels 6, screw mechanisms 7, a tipper 8, field boards 9, a dump plow body 10, circular knives 11 and a ring roller 12. The removable plow body 5 consists of a plow-blade part 13 and an extension 14, which are made together, the extension 14 being pivotally mounted, as well as an arm 15, by means of which fixing bolts 16 allow the plow body 5 to be attached to a plane cutting element ntu 4.

 A device for tillage works as follows.

 During the movement of the tillage unit, the disk knives 11 cut the soil crust in a vertical direction, large plant debris, green manure, then the flat cutting element 4 cuts the upper fertile soil layer to the set depth h with cutting edge 17, and plow bodies 5 wrap and loosen it, the first one according to in the course of the movement of the unit, the moldless plow body 10 cuts the soil and puts it on the adjacent lane to the right without a turn. With the adjacent passage of the soil tillage device, the tipper 8, mounted above the last plow body 5 along the unit, raises, wraps and drops this layer into the groove formed by the plow body 5 over which it is installed. At the same time, crop residues, fertilizers, green manure are embedded in the soil, which then, due to the shallow occurrence, under the influence of aerobic bacteria completely and quickly turn into nutrients easily digestible for cultivated plants (humus).

 A subsoiler 2 loosens the subsurface horizon to the required depth H so that the cultivated soil layer does not reach the day surface of the field and is not mixed with the top layer, but left within the furrow.

 The position of the flat-cutting element 4 is changed in depth h by rearranging the fixing bolts 18 along the racks of the subsoilers 2.

 Field boards 9 mounted behind the subsoilers 2 go along the furrow formed by these subsoilers, while stabilizing the movement of the unit.

 The ring roller 12 mounted in the rear of the frame crumbles and levels the upper arable horizon.

 The absence of racks of plow bodies causes a reduction in energy costs for loosening and turnover of the reservoir, and also eliminates clogging them with plant residues.

 The buildup of soil particles on the leading edge of the plow bodies is prevented by the fact that circular knives cut the upper soil layer along the leading edges of the dumps.

 Thus, the separation of simultaneously cultivated soil layers into two arable horizons leads to an increase in the quality of processing, a decrease in the total energy intensity, and the combination of shallow heap and deep heapless cultivations contributes to the concentration of necessary nutrients and sufficient moisture reserves in the lower horizons.

 In order to unify the soil treatment device, if it is necessary to perform moldless loosening, the flat cutting element must be removed, and if it is only necessary to cut and loosen the upper soil layer, then plow bodies must be removed.

Sources of information
1. AC CCCP 1466668, A 01 B 13/16, 1989.

 2. A.S. USSR 1604176, A 01 B 35/26, 1990

 3. A.S. USSR 1672939, A 01 B 13/16, 1991

 4. A.S. USSR 1709933, A 01 B 35/22, 1992

 5. RF patent 2131653, A 01 B 79 / 00,13 / 14, 1999.

 6. RF patent 2134933, A 01 B 13/14, 1999

 7. A.S. USSR 973051, A 01 B 49/02, 1982, (prototype).

Claims (5)

 1. A device for tillage containing mounted on the front of the frame disk knives, subsoilers and a roller, characterized in that the device is equipped with removable plow bodies and a flat cutting element, while the frame has two rows of disk knives and two rows of deep rippers, the housing is mounted on a flat-cutting element, which is pivotally-movably connected to subsoilers.  2. The device according to claim 1, characterized in that the first plow body along the direction of movement of the device is made non-moldable to ensure that the soil layer is laid on the surface of the adjacent furrow on the right.  3. The device according to claim 1, characterized in that a soil tipper is installed above the last plow body along the direction of the device.  4. The device according to claim 1, characterized in that the soil tipper is mounted on a rack mounted on a plane-cutting element, with the possibility of changing the angle of inclination relative to this rack.  5. The device according to claim 1, characterized in that field planks are installed on the bottom of the plank cutting element from the bottom in the wake of each subsoiler.

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