RU2663142C2 - Method of deblocked soil paraploughing with irrigation furrow shaping - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the erosion control of the soil when cultivating tilled and perennial crops in mountain-flat farming. Paraploughing is carried out with the shaping of irrigation furrows and loosening of the soil along the width of the compacting strips of the tractor propellers. Initially, a combined deblocked cutting of two slits of the upper soil layer together with a fragment of irrigation furrows is carried out separately by two furrow shapers. Wings of each furrow shaper are attached to the bottom of the vertical stand, and the toes are fixed to a given depth of the irrigation furrow to 15–20 cm in the upper soil layer. Simultaneously intensive rotational treatment of the upper soil layer to a depth of 10–12 cm in the deblocking zones is carried out. Following the first one, deblocked cutting of two slits for each strip are performed in the same manner to a depth of 30–40 cm in the lower arable layer with simultaneous intra-soil rotary processing with overlapping of its lower part of the initially loosened top layer and loosening of the sole below the depth of total paraploughing.EFFECT: increase in the efficiency of erosion control of the soil is provided.1 cl, 2 dwg

Description

The research institute "Agromechanics" together with the Azerbaijan State Agrarian University has developed a technology and device designed for anti-erosion tillage when cultivating row crops and perennial crops in mountain-plain farming.

The method includes crevice release of the compacted traces of the tracks and tractor wheels with the combination of the technological operation of cutting irrigation furrows and layer-by-layer active loosening of the release zone in order to prevent water erosion by preserving moisture in the soil, as well as qualitatively softening and loosening its arable layer, thereby providing the most favorable conditions for water-air nutrition of the root system of plants.

The invention relates to agricultural production and is intended for anti-erosion tillage mainly between rows of perennial plantations, including orchards, vineyards, berry plants and nurseries, as well as dry and wet subtropics zones in the plains-steppe and foothill zones of cultivation of cultivated vegetables and melons.

Known analogues of the proposed method of sowing, including sowing and loosening the soil along the width of the compaction bands of tractor movers ((73) Private Enterprise "AMIN" (AZ) (56) SU 1391514 A1, 04/30/1988) and a device for soil sowing, containing two leaching, each of which has a stand and rotary cultivators (SU 1391514 A1, 1988), as well as the invention as a prototype of the patent of the Russian Federation for “Method for unlocked soil sowing and device for its implementation” under the number (19) RU (11) 222362113 C1 , (51) 7 A01B 37/00, 13/16, 49/02, which It is used as a prototype, used in addition to both the method and its construction device for the additional technological operation of cutting irrigation furrows with two furrows 4, which are installed respectively frontally (in front) on the bend of each of two vertical posts (right and left) with an inclination forward at an angle "α ₁ ", as can be seen from the above diagram in FIG. 1 and 2.

In FIG. 1. shows a design diagram of a device for implementing the method of unlocked soil sowing with cutting irrigation furrows, side view. In FIG. 2 - the same, rear view.

The device includes slitherez blocked on its frame with groove cutters for irrigation furrow fragments, consisting of: racks 1, front 2 and rear 3 crevice, grooves 4, for the top 5 and lower 6 axes of rotation of rotary cultivators placed in rolling bearings 7 and 8, knives 9, the upper 10 and lower 11 chain sprocket 12.

The design of the device on the “Method of unlocked soil sowing with cutting irrigation furrows” includes interlocked vertical posts (1) located along the width of the strip of the release zone “a” of the tracks and the passage of the tractor propulsors to the left and right of the tractor’s ruts are equipped with slit-holes (2) (Fig. 1 ) with an inclination forward at an angle (α ₁ ), as well as rear slithereas (3) located obliquely back at an angle (α ₂ ), respectively, for tiered cutting of cracks as a top layer to a depth of 15-20 cm, as well as a lower arable layer to a depth 30-40 cm. Capacity in addition, two-wing furrow cutters (4) are frontally mounted on the uprights (1) on the right and left, the wings of each of which are mounted on the lower base of the vertical uprights for rotational processing to a depth of 10-12 cm, as well as unlocked cutting of two slots for each strip on depth 30-40 cm (Fig. 2).

The upper supra-soil and lower intra-soil rotary cultivators are installed on the back side of the crests (3) in the transverse horizontal plane, with mutual overlapping with the knives of the lower part of the initially loosened upper layer and loosening of the sole below the depth of full slotting. Rotary cultivators are made with rotation axes (5 and 6) seated in bearings (7) and heels (8) with knives (9). In this case, the knives 9 of the subsoil and subsoil cultivator are installed relative to each other in a checkerboard pattern and with a shift along the axes of rotation, diametrically opposite and with the overlapping of the knives vertically (figure 2). The upper subsoil and lower subsoil cultivators at the ends of the rotation axes (5 and 6) have sprockets (10 and 11) symmetrically mounted in the rolling bearings (7 and 8) with synchronous rotation chain transmission (12), and the diameter of the sprockets (11) is larger than the diameter of the sprocket (10) with a gear ratio of 1.5. At the same time, the horizontal lower protrusions of the posterior crests (3) serve to secure the lower chain wheels (11) of the chain drive (12) by means of rolling bearings (7 and 8) with two heels.

The technological process of unlocked soil sowing with cutting irrigation furrows includes the initial phase of work, when the racks (1) on the right and left with scaffolds (2 and 3) are buried in the soil, cutting initially the cracks of the upper tiers to a depth of 15 ... 20 cm, when together with them simultaneously with furrow cutters (4), two irrigation furrows are respectively cut. At the same time, the knives are rotated spontaneously (under the influence of counter soil resistance) (9), and then, in the phase of complete deepening, the cracks are cut by active release along the entire width of the passage of the tracks and tractor wheels, when the knives (9) of the lower cultivator are located at a greater depth, than cherezores (3), the loosening of the bed of the bottom of the furrow to the depth of the arable layer up to 30 ... 40 cm is thereby realized.

Slotting with active harrowing, cutting of two irrigation furrows with furrow cutters, the wings of each of which are attached to the lower base of the vertical strut to the initial depth of rotation processing equal to 10-12 cm, unlocked cutting of two slots for each strip to a depth of 30-40 cm, conducting intra-soil rotational treatment with overlapping of its lower part of the initially loosened upper layer and intermediate active loosening of the sole below the depth of complete slitting, thereby ensuring equal left and right eshivanie resistance forces constancy depth stroke working parts, reducing the resistance of the soil and the quality of their treatment due to natural actuator that does not require additional energy costs to combat its seal and the surface layer of the treated soil over the entire working width of the device structure. Thus, and at the same time, the process of combining fragments of irrigation furrows with cutting irrigation slots to a depth of 30-40 cm, as well as deep internal loosening of the strips, which contributes to the active penetration of irrigation water into the soil directly in the horizontal plane between the furrows and sketchy deep slots, is ensured.

Claims (1)

The method of unlocked soil cleavage with cutting irrigation furrows, including cleavage with cutting irrigation furrows and loosening the soil along the width of the tractor mover’s sealing strips, characterized in that they initially carry out combined unlocked cutting of two slots of the top soil layer together with a fragment of irrigation furrows separately by two furrows, wings each of which is attached to the lower base of the vertical stand, and socks - to the specified depth of the irrigation furrow up to 15-20 cm in the upper soil layer, simultaneously intensive rotational processing of it to a depth of 10-12 cm in the release zones, and after the first, a similarly unlocked cutting of two slots is carried out for each strip to a depth of 30-40 cm in the lower arable layer with simultaneous intra-soil rotational processing with the overlapping of its lower part of the initially loosened upper layer and loosening the sole below the depth of complete slitting.

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