RU2095953C1 - Soil tillage plow and method - Google Patents

Abstract

FIELD: agricultural engineering and production. SUBSTANCE: method involves undercutting upper layer of soil and separating main layer in horizontal plane; lifting main layer and laying it into the same furrow; turning lower soil layer and laying it into previously formed furrow. Plow has frame with plow bodies. Each plow body has horizontal blade adjustable in vertical plane and positioned at the side adjacent to landward edge of moldboard. Blade undercuts upper soil layer which is cultivated by subsequent plow body. Upper parts of moldboards have cuts through which upper soil layer is directed. Deflectors are secured on moldboard wings to direct and return upper soil layer into its furrow. EFFECT: increased efficiency, simplified method and working tool. 3 cl, 2 dwg

Description

 The invention relates to agricultural production and agricultural machinery, and in particular to methods of plowing and plows for its implementation.

 There are various methods, types of plowing: cultural, take-off, helical, longline, smooth, with soil cultivation, etc. (Agricultural and reclamation machines. Under the general editorship of G.E. Listopad. M. Kolos, 1976, p. 12 - 13, Karpenko A.N. et al. Agricultural machines. M. Kolos, 1975, p. 12 - 13). The main purpose of all types of plowing is deep loosening of the soil with a turnover of the reservoir and the incorporation of its upper layer together with roots, seeds and other plant debris to the bottom of the furrow.

 With the known methods of plowing, the upper soil layer is cut (with a coulter) mainly of a thickness of 8 12 cm and a width of 2/3 of the main layer, and it is dumped with a turn to the bottom of a neighboring, previously prepared furrow, and then the lower soil layer is wrapped around it (plow body) . In this case, the formed furrow is narrowed due to shedding of the wrapped formation, for example, after the formation is turned around by the plow body with a working width of 35 cm, a furrow of 10 14 cm wide is formed, and from above 20 30 cm, depending on the depth of plowing, type and condition of the soil. Consequently, each skimmer wraps the topsoil in a furrow with a width of 10 14 cm at the bottom. Therefore, so that the layer removed by the skimmer is laid on the very bottom of the furrow, and not on the slope, the width of the skimmer is taken 1/3 less than the width of the main corps. Despite this, a significant portion of plant debris remains on the surface at the joints of the wrapped layers.

 When plowing soils littered with stones, plow bodies are installed on the plow bodies, acting as a skimmer. The angular, having a lower metal consumption than skimmers, can reduce the distance between the bodies and thereby the size and weight of the plow. But the coal-cutter cuts off and does not wrap the strip as a skimmer, but only the angle of the formation during its movement along the dump.

 Modern plows, equipped with skimmers and charcoals, close up plant debris to a depth of 12–15 cm, and special plows (two-tier) up to 18–20 cm. However, the deeper the upper layer of soil is saturated with weed seeds, rhizomes and plant debris, the lower the weediness. fields and more intensive decomposition of plant residues. For example, two-tier plowing under cotton in comparison with the usual one reduces weediness of fields by 4–5 times (Karpenko A.N. et al. Agricultural machines. M. Kolos, 1975, p. 46).

The disadvantages of existing methods of plowing and plows:
the rotation of the soil layers by two working bodies (skimmer and main body) complicates the plowing technology and the design of the plow, increases the metal consumption and reduces the operational reliability of the plow;
transportation of soil layers on the surfaces of plowshares and dumps of the skimmer and the main body, as well as their circulation into an adjacent furrow require large energy costs;
the turnover of the topsoil into an adjacent furrow after shedding of the previously laid formation leads to a narrowing of the furrow, which in turn causes uneven packing along the width of the bottom of the furrow and insufficiently deep seeding of plant residues, i.e. relatively low quality plowing.

 The invention is aimed at eliminating the above disadvantages of the known methods of plowing with a turnover of the formation and plows, and from its use the following technical and technological result can be obtained: simplification of the technology of plowing and construction of the plow; reducing metal consumption and increasing the operational reliability of the plow; reduction in energy consumption of the plowing process; improving the quality of plowing by deeper and more complete incorporation of plant residues.

 The indicated technical and technological result is achieved by cutting the upper layer of soil, for example, 8-12 cm thick, in a horizontal plane before separating the main layer, and when lifting the entire layer along the oval, the trimmed upper layer is laid in the same furrow, and the lower soil layer is wrapped and laid in the previous furrow on top of the topsoil of this furrow. The topsoil can be laid in its own furrow with or without turnover, depending on the working conditions and agricultural requirements for the depth of plant residues.

 The described technological process allows the topsoil to be laid in its own furrow until the main part of the wrapped formation is showered and part of the furrow bottom is covered with the bottom soil layer. This leads to a more uniform distribution of the upper soil layer over the entire width of the bottom of the furrow and a deep embedment of plant debris.

 According to the proposed plowing technology, the plow body wraps in the previous furrow less than 2/3 of the reservoir volume, and more than 1/3 of its part passes over the dump with laying in its own furrow, i.e. this part of the soil is not transported through the skimmer dump, does not turn into the previous furrow, which simplifies the plowing process and the design of the plow, reduces the energy consumption of the plowing process.

 The plow for implementing the method of plowing includes a frame with plow bodies attached to it, each body on the side of the field edge of the blade is equipped with a height-adjustable knife that cuts the top layer of soil processed by the subsequent body. The dumps of the hulls have cutouts in the upper part to allow the upper layer of the formation to pass through them, and reflectors are installed on the furrow side in the upper part of the wings of the dumps to guide and lay the upper soil layer into its own furrow. Reflectors may have a curved surface for turnover of the topsoil when laid in a furrow.

 The knives on the field side of the hulls, in addition to cutting the upper soil layer, allow you to unload the field board and the hull rack from lateral forces (bending moment), which will make it possible to reduce their size and metal intensity of the plow. The dumps of the bodies have a lower height, therefore, less metal.

 In fig. 1 schematically shows a plow for implementing the method, top view, Fig. 2 the same, rear view.

 The method is as follows.

 In the working process, the knives of the plow bodies cut the top layer of soil, for example, 8-12 cm thick, preparing the layer for processing by the subsequent body. The ploughshare of the subsequent body cuts the layer from below, and the field cuttings of the ploughshare and blade gradually, starting from the toe of the share, open the layer in a vertical plane from the field array. In this case, the upper soil layer, more connected by the plant root systems, is separated from the field array later than the lower layer, and therefore, a certain displacement of the soil layers on the undercut surface occurs on the breast of the dump: the lower layer crumbles and is transported by the blade to the previous furrow, the upper layer is somewhat lagging, moves along a different trajectory directed into its own furrow, and, meeting with the reflector, passes through the dump and fits into its own furrow until the lower soil layer is showered in this furrow.

 Depending on the surface of the reflector, the topsoil can be laid with or without a turn. The lower layer of soil with the dump of the hull turns into the previous furrow, deeply embedding the upper layer of soil of this furrow.

 The plow for carrying out the method comprises a frame 1, plow bodies fixed on it, including plowshares 2, dumps 3. To the racks of the bodies are attached height-adjustable knives 4. The upper parts of the dumps 3 have cutouts 5, and their wings are equipped with reflectors 6.

 The plow works as follows.

 When the working passage, the knives 4 cut the topsoil for subsequent buildings. The share 2 of each body cuts the formation from below. As the formation rises to the chest of the dump 3, the soil layers are somewhat displaced due to the late separation of the upper layer from the field array, then the reflectors 6 direct the upper soil layers into their own furrow, and they pour through the cutouts of 5 dumps into the furrow. The lower layers of soil dumps 3 buildings are wrapped in previous furrows.

Claims (2)

 1. A method of plowing the soil, including preliminary cutting of the upper soil layer, cutting the formation, its rotation and laying the lower part of the formation in the previous furrow, characterized in that the previously trimmed upper soil layer is laid on the bottom of the formed furrow, and the lower soil layer is laid in the previous furrow closing up topsoil.  2. A plow, including a frame with plow bodies fixed on it, each of which has a knife fixed on the side of the field edge of the blade, characterized in that the blade of each body has a cutout in the upper part, and a reflector is fixed on the wing of each blade.

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