RU2146433C1 - Method and apparatus for applying and keeping soil formers in root layer - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves mixing soil formers with soil. When slits, moles, holes and interrupted furrows are cut in soil, soil formers are intensively migrated from upper layer into root layers. Underground and outer moisture accumulating vessels, such as slits, moles, holes, interrupted furrows prevent soil formers from being washed out from soil by flowing water. Apparatus has frame, chassis, hitch, wheels and regulating mechanism. Tine is fixed on frame and adapted for carrying hoe with double-sided wedge-shaped moles. Two moles are positioned at hoe side edges and third mole is disposed in central portion. Hole cutting cylinder mounted behind hoe has narrow and wide blades mounted at an angle to axis of rotation of cylinder. EFFECT: increased efficiency in distributing soil formers over the whole root layer of soil and reduced washing out of soil formers from soil due to water erosion. 3 cl, 4 dwg

Description

 The invention relates to agricultural production and agricultural machinery, in particular to methods for introducing and preserving soil forming agents in the root horizon of the soil and implements for introducing and preserving soil forming agents in the root horizon of the soil.

 A known method of cultivating crops (USSR, A.S. N 919620, MKI A 01 B 79/02, 1982), including the introduction of manure into the soil by spreading it over its surface and mixing the surface layer with soil, which is then plowed into the bottom arable horizon, and subsequent tillage lead above the created layer.

 The disadvantage of this method of introducing and preserving soil forming agents (in this particular method - manure) is the uneven distribution of soil forming agents along the height of the root horizon. This is because, after mixing the soil forming agents with the surface soil layer, it is smelling, and when plowing, as you know, the soil forming particles are dumped to the bottom of the furrow, and subsequent processing is carried out above the created layer. With this method of introducing and preserving soil forming agents under the treated layer for 5-6 years, they only provide nutrients to the horizons of the root layer, located below the depth of subsequent treatments, that is, where the main and most of the roots of cultivated crops are not located. And the upper layers of the root habitat as were depleted in nutrients, and remained for many years. In addition, in the autumn-winter and spring periods, the water of precipitation penetrates through the loosened layer and flows down the slope along the densified bed of the bottom of the furrow, washing away the soil forming agents. Subsequent treatments are carried out on a plowed field, on the surface of which there are no materials that reduce the wind speed in the surface layer. All this leads to a decrease in nutrients in the root horizon of the soil, loss of fertility, the development of erosion, a decrease in water permeability, and ultimately a decrease in productivity. It should be noted that during the incorporation of soil forming agents and during subsequent treatments, the formation of a waterproof upper layer does not occur, which leads to a surface runoff of precipitation, nutrients of the upper root horizon.

 A tillage implement is also known, which contains a frame, a hitch, wheels, an adjustment mechanism, a rack, a paw and two-sided wedge-shaped movers mounted on it, two of which are located at the side edges of the paw, and the third in the center and the drum (see No. 2075272, A 01 B 49/02, 1997).

 A disadvantage of the known tool is that the working bodies do not fully preserve the soil-forming agents, and therefore soil-forming agents are being removed from the soil of the root horizon.

 The objective of the invention is to remedy the above disadvantages.

 The technical result is an increase in the quality of distribution of soil formers in the root horizon and a decrease in their washing out by drains of melt and rainwater on sloping fields.

 This is achieved by the fact that in the method, including the introduction of soil forming agents into the soil by spreading along the surface and mixing the soil forming agents with the surface soil layer, after mixing, vertical slots are cut with the end in the form of a horizontal drainage channel, molehills are placed in the plane of the side faces and in the center at a depth of channel with the formation of cracks for the migration of soil forming particles deep into the root horizon from its upper layer through cracks and crevices, and the holes are made in the upper th layer between the slits over which the grooves alternate with the webs.

 In addition, in the gun containing the frame, linkage, wheels, adjustment mechanisms, stand, paw and two-sided wedge-shaped movers installed on it, two of which are located at the side edges of the paw, and the third in the center and the drum, the latter has narrow and wide blades mounted at an angle to the axis of rotation of the drum.

 In FIG. 1 shows a cross section of a root habitat soil horizon.

 In FIG. Figure 2 shows a disk-type tool for introducing and maintaining soil-forming agents in the root-inhabited soil horizon.

 In FIG. Figure 3 shows a tool for introducing and preserving soil forming agents in the root-inhabited soil horizon, carrying out deep loosening of the soil with forging of molehills, crevices, holes and furrows with bridges 3.

 In FIG. 4 presents a General view of the working body (Fig. 3) with a paw, mole and vertical cultivator.

The method of introducing and preserving the soil forming agents in the root horizon of the soil comprises mechanized distribution of the soil forming agents over the surface of the soil forming agents, mixing H ¹ with the soil (Fig. 1). After mixing, the slits are cut with depth H with the end in the form of a horizontal drainage channel, and moles of width K and height h ₁ with a distance L, l between them at the channel depth are placed in the plane of the side faces and in the center of the channel, with cracks appearing at an angle to vertical slots of width t. Through these vertical cracks and cracks, soil-forming particles migrate deeper into the root horizon from the upper layer through cracks and cracks. The holes are cut into holes of depth h and width b in the upper layer of the root horizon between the slots, above which the furrows alternate with jumpers. Jumpers form over slots with a width of t. Between adjacent molehills there is a roller for eliminating subsoil runoff. In case of precipitation, water is distributed over the holes and furrows and through the cracks together with the soil-forming agent penetrates deep into the root-inhabited horizon and thereby enriches it with nutrients readily available to plants.

 The tool for mixing soil-forming agents with the soil contains a frame 1, a spoke 2, a container 3 for ballast, disks 4,5 of the first and second rows.

 The tool for introducing and preserving soil-forming agents contains a frame 6 (Fig. 3), a linkage 7, support wheels 8, 9, adjustment mechanisms 10, 11, narrow gripping chisel paws 12 with a vertical strut 13, double-sided wedge-shaped beater 14 mounted on the paw 12. the drum 15 is made of corrugated, and between them are placed rods on which narrow 16 and wide 17 blades are fixed, mounted at an angle to the axis of rotation of the drum 15 for making holes and jumpers, respectively.

 The method is carried out by guns as follows.

Initially, the spreading and distribution of soil forming agents, such as supercompost, are carried out on the surface of the soil. This operation is carried out, for example, with a fertilizer spreader RPTU-2m, attached to the tractor MTZ. Next, the soil-forming agents are mixed with the upper soil layer (root-inhabited horizon) as follows. When the unit moves along the field on which the soil forming agents are distributed, the disks 4, placed with an angle of 30-35 ^o to the direction of movement, under the influence of the soil resistance with a sharp cutting edge cut the strip of the soil layer along with the soil forming agents, which are shifted to the side, rise to the disk 4 and from a certain height fall on the surface of the field, mixing. The disks 5 of the second row additionally mix the soil forming agents with the soil of the strips of the formation previously mixed with the disks 4 of the first row. Thus, the soil forming agents are mixed with the upper layer H of the root horizon. Further, during the movement of the guns of the rack 13, vertical slits are cut, and the paws 12 simultaneously with the racks 13 cut the layer to a depth H, form the end of the gap in the form of a drainage channel, at the depth and in the plane of the side faces and in the center of which are formed formed by paws 12 the sides and center of the wedge-shaped mole ratchets 14 molehills. When cutting cracks, a horizontal channel and molehills, cracks form in the upper root-inhabited soil layer, along which particles of soil-forming particles migrate deeper into the root-inhabited horizon, i.e. evenly over the entire horizon of the upper layer. When the gun moves, the drum 15 rotates. Narrow 16 blades form holes in the upper layer between the slots. Wide 17 blades form furrows with bridges under the cracks.

 Thus, the proposed method for the introduction and preservation of soil forming agents in the root horizon of the soil and the implement for its implementation not only make it possible to fertilize evenly throughout the depth and width of the root horizon of the soil forming agent, but also eliminate their leaching, drift and increase the reliability of soil conservation in the soil.

 The proposed method and tools for its implementation do not have a negative impact on the environment, as they allow loosening and soil formation with the simultaneous formation of a water-wind-resistant root habitat soil horizon.

Claims (2)

 1. The method of application and preservation of soil forming agents in the root horizon of the soil, including the introduction of soil forming agents into the soil by distribution over the surface and mixing with the surface soil layer, characterized in that after mixing the soil formation agents with the surface soil layer, vertical slots are cut with the end in the form of a horizontal drainage channel, Moleholes are located in the plane of the lateral faces and in the center of it at the depth of the channel with the formation of cracks for migration of soil forming particles into the interior uninhabited horizon from the upper layer through cracks and cracks, and hole making is done in the upper layer between the cracks, above which the furrows alternate with jumpers.  2. A tool for introducing and preserving soil forming agents in the root horizon of the soil, including a frame, a linkage, wheels, adjustment mechanisms, a stand, a paw and two-sided wedge-shaped movers installed on it, two of which are located at the side edges of the paw, and the third in the center, and drum, characterized in that the drum has narrow and wide blades mounted at an angle to the axis of rotation of the drum.

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