RU59935U1 - DEVICE FOR PREPARING SOIL AND DIRECTED APPLICATION OF THE BASIC DOSE OF SOLID MINERAL FERTILIZERS AT SEEDING - Google Patents

Abstract

A device for soil preparation and directed application of the main dose of fertilizers during sowing relates to the field of mechanization of agricultural production, in particular to sowing cereal crops and grasses with seeders with disc coulters with simultaneous application of solid mineral fertilizers. The purpose of the utility model is to provide soil preparation, sowing seeds in moist soil and targeted introduction of the main dose of fertilizer into the zone of effective use of nutrients by seeds of two rows, to increase the patency of the coulters of the seeder, to ensure the conservation and revival of soil biota. When applying the main dose of mineral fertilizers in all known cases, their effective use is currently not ensured either due to distribution over the entire field (in which case the main part of fertilizers is bound by soil complexes, washed with moisture or used by weeds) or a high concentration of fertilizer salts inhibits seedlings, seedlings, crop plants or removal of a line of fertilizers from seeds makes it difficult to use them with a simultaneous deterioration of the openers. The main dose of mineral fertilizers is directedly applied at a distance from the seed lines at which the negative effect of fertilizer salts on seedlings, seedlings, and wheat plants does not appear. As a result of concentrated application, the binding of fertilizer nutrients to soil complexes is significantly reduced, the washing, washing out of fertilizers is reduced, the use of fertilizers by weeds is reduced, it becomes possible to suppress many weeds in the area above the fertilizers, around fertilizers with a high concentration of fertilizer salts. The main concentrated fertilizer application significantly increases

terms of their use, which significantly increases the efficiency of fertilizers. It is equally important that a hundred-fold reduction in soil volumes with a concentration of salts dangerous for biota ensures almost unhindered development of biota, worms at high doses of mineral fertilizers, and provides environmentally friendly products. 1 sec P. f-ly, 2 ill.

Description

The utility model relates to the field of mechanization of agricultural production, in particular to the sowing of cereal crops and grasses with seeders with disk coulters with the simultaneous application of solid mineral fertilizers.

Currently, sowing of cereal crops and grasses is carried out, as a rule, by grain seeders of the SZ-3.6 type with disk coulters. At the same time, mineral fertilizers are sown in one groove with seeds. In this case, it is possible to introduce small starting doses of fertilizers that do not create a concentration of salts dangerous for the seedling day. Sowing the main dose of fertilizers with such seeders is unacceptable due to inhibition and even death of seedlings in an environment of high concentration of fertilizer salts. Foreign seeders and new domestic developments are known, which provide for the sowing of fertilizers with special openers in the center of the rows of seed openers. The disadvantage of such structures is the rigid fastening of the chisel with a funnel on the seeder frame, which does not allow copying the nanorelief and does not provide fertilizer placement with an unspecified depth. In addition, seed coulters are located at equal distances from each other, and the installation of bits for introducing fat through each row spacing creates conditions for clogging the coulters with plant residues, worsens the patency of the working bodies. The main thing is that with such embedding, the tuks are sealed at a considerable distance from the seeds of the crop, since the working bodies of these seeders are located in the centers of relatively wide spacing. Relatively large distance between rows of seeds and stitching

fertilizer makes it difficult to use fertilizers effectively.

In a combined machine for fertilizing and sowing, according to the copyright certificate of A.S. No. 1230477, class And 01 On 49/06, 1986, sowing of seeds is provided "exactly for fertilizers sprinkled with earth", which creates abnormal conditions for plant growth, as it inhibits the growth of roots down, where the sowed fertilizers create a high concentration of salts dangerous to plants.

Opener for broadband sowing and fertilizing according to patent RU 2199200 C1 7 A 01 C 7/20. 06/04/2001 does not provide for the separation of seeds and fertilizers. Therefore, as with the use of seeders of the SZ-3,6 type, when using such openers, the seeding of the main dose of mineral fertilizers is unacceptable.

With conventional sowing, the row spacing width a is the same for all row spacing of the seeder. When applying fertilizers with known seeders, the row spacing corresponds to the size a / 2 between fertilizer and seed coulters in one row spacing (which reduces patency) and the size and in other cases (between seed coulters). Consequently, clogging coulter such planters when running two coulters on one long vegetable residue is possible at a length vegetable residue Va ² + ΔL ^2, V (a ^2/4) + ΔL ^2.

In the study (Report "Development of new technological methods for sowing crops and the creation of high-performance grain and row seeders (intermediate)" according to the research work "To develop new technological methods for sowing crops and create high-performance grain and row seeders taking into account the zonal conditions of the country." Performers V. T. Zmievsky, V.I. Skorlyakov, N.K. Ushakin and others. SKF VIM, VASKHNIL, Armavir, 1986, p. 64) coulters were carried out

measurements of the depth of seeding of seeds and fat. For a disc-anchor coulter specially designed for separate seed and fertilizer placement with a seed placement depth of 62 ± 8.6 (mm), the fertilizer placement depth was 84 ± 6.9 (mm), i.e. the difference between the embedment depth of fertilizers and seeds was 8.3 ... 35.5 (mm), which is insufficient for safe application of the main dose of mineral fertilizers. The purpose of the utility model is to provide soil preparation, sowing seeds in moist soil and the essential introduction of the main dose of fertilizer into the zone of effective use of nutrients by seeds of two rows, to ensure increased passability of the drill coulters without clogging.

To eliminate these shortcomings, a device is proposed for the simultaneous application of solid mineral fertilizers and soil preparation and sowing of two rows of seeds.

In the drawings 1 (side view) and 2 (top view) shows a device for soil preparation and directional application of the main dose of fertilizer during sowing.

The device includes a section of the working bodies with leashes 1 (Fig. 1, 2), height-adjustable chisel 2 with fertilizer funnel 3, with left and right disc coulters 4 with vas deferens, rolling wheels 5 and stubs 6. Chisel 2 with fertilizer funnel 3 performs a furrow of a given depth B and fertilizes the groove. At the same time, the chisel paves the way for the coulters. Disc coulters 4, mounted at an acute angle to each other in the section of the bit, move along the prepared soil and sow to a given depth A, at a given distance between the rows of seeds and between the row (strip) of tuks and rows of seeds. The plant debris pushed by a chisel with a fat funnel is directed to the discs of the seed coulters converging at an acute angle

further into the widened row-spacing, which increases the passability of the seeder both in comparison with foreign seeders and new domestic developments, and in comparison with widely used seeders of the SZ-3,6 type.

In our case, the row spacing of the section with the introduction of fertilizer is reduced (to a-2Δ) (Fig.2), and the row spacing between the sections, without introducing the fat is increased (approximately to a + 2Δ). All plant residues are sent to the wide aisle. Clogging in this case is only possible if the length of the plant residues is more than V (a + 2Δ) ² + ΔL ² .

As surveys show, with increasing particle length, their number decreases significantly. In the proposed device, the reduction of clogging also occurs due to the reorientation of the transversely lying plant residues to the longitudinal orientation with chisels with fat funnels. The likelihood of running into longitudinally oriented residues, and hence the likelihood of clogging, is significantly lower than in the absence of orientation.

The coulter sections and suspensions are of different lengths and form the front and back rows of bits and disc coulters with a distance ΔL between them along the planter. Section disc coulters of the same row are fixed at the same distance from the axis of attachment of the suspension. In each section, the chisels are located on a line running at the same distance from the coulters. The coulter discs are installed at such a distance from the front chisels with fat funnels that move in the groove zone formed by chisels with the walls of the groove not collapsing. Such a device, simultaneously with the directed introduction of the main dose of fertilizer into the narrowed row spacing to the required depth, prepares the soil (with a chisel with a fat funnel) for the movement of the coulter, sowing and seeding the seeds. The result is four operations

(spreading fertilizers, embedding fertilizers, pre-sowing soil preparation and sowing) when using seeders of the SZ-3.6 type or two operations (pre-sowing soil preparation and sowing) with foreign seeders or seeders of domestic developments are replaced by one, which significantly reduces energy costs with significant simultaneous improvement (from the point of view of plant nutrition culture operations quality.

To achieve the required high quality nutrition for plants, the distance of fertilizer application from the seed line ((a-2Δ) / 2) and the depth of fertilizer placement (B) relative to the depth of seed placement (A) is chosen so that there is no burning of seedlings, their roots in the medium high concentration of salts and at the same time, the roots of the plants of the crop reached fertilizers in the shortest possible time. For this distance ((a-2Δ) / 2), (B), (A) are chosen so that approximately the distance from the row of fertilizers to the row of seeds ((a-2Δ) / 2) ² + (B-A) ² amounted to 3 ... 5 cm (depending on culture and sowing conditions).

The present invention does not provide zero treatment with increased use of herbicides. Crop plants in narrowed aisles, receiving nutrients from closely spaced rows with high doses of fertilizers, develop faster, rows of narrowed aisles quickly close, shading and drowning out weeds. Rather quickly, thanks to rapid development, rows of widened row spacings close. As a result, the need for herbicides is slightly lower than when sowing with known seeders.

At the same time, the application of fertilizers at an optimal distance from the seeds of the crop avoids their negative impact

to seedlings. Relatively the highest, in comparison with any of the above options, the concentration of fertilizers in the line allows to reduce the fixation of nutrients by soil complexes, reduces leaching of fertilizers, reduces their transition to a gaseous state and volatilization, lengthens the time of use of fertilizers. The location of fertilizers next to rows of seeds reduces their use by weeds, inhibits the development of weeds in comparison with the use of other designs of openers.

The result is increased fertilizer utilization. It becomes possible to obtain high yields with lower doses of fertilizer. An equally important result is the ability to preserve and increase the number of biota, worms. This is made possible by reducing the need for herbicides. It is even more essential to reduce the negative impact of a high concentration of fertilizer salts on biota by reducing soil volumes with a dangerous concentration of salts. With the generally accepted continuous application of mineral fertilizers throughout the field, followed by termination, a hazardous concentration is created throughout the field to the entire depth H of the biota habitat, along the entire transverse sectional area of this layer. When applying fertilizer in strips (rows) between rows of seeds, a dangerous concentration is created around the row of fertilizers. In a cross section with a diameter of fertilizer stitches d, a high concentration of salts is created around these stitches in a circle with a diameter of no more than D = d + 2 * (3 ... 4 cm). One such circle occurs in a section 2 * a * H * in size. The ratio C = 100 * (π * D ² ) / (4 * 2 * a * H) determines the fraction of the cross section of the layer in a high concentration of salts. When cultivating crops, usually a = 15 cm.

The diameter of the fertilizer line does not exceed d = 1 ... 1.5 cm. According to the literature, the value of the depth of the layer with a high concentration of biota can take H-30 cm. In that case, C ≈ 0.8%. A significant hundred-fold decrease in the cross-sectional area, and hence the volume of soil with a concentration of salts dangerous for biota, provides almost unhindered development of biota, worms at high doses of mineral fertilizers.

Claims (1)

A device for preparing the soil and directed application of the main dose of fertilizer during sowing, including sections of the working bodies with leads and openers for sowing two rows of seeds, with seed tubes and shorters, characterized in that on the leads in the center of the rows there are fixed height-adjustable bits with a fertilizer funnel, and the distance between the sections of the working bodies exceeds the distance between the rows of seeds of the section.