RU2421978C2 - Method and device to cultivate crops - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: group of inventions relates to the field of agriculture. The method includes harvesting grain spike crops by standing combing, spraying of combed density with preparations and direct sowing of the next crop in crop rotation. Grain crops are harvested in the period of its milk-wax stage of ripeness. A herbicide "Roundup" is applied onto the combed density, as well as efficient microorganisms-1 of a microbiological trophic system, in amounts of 2-3 l/ha and 1-2 l/ha accordingly. A tank mix of efficient microorganisms-1 of the microbiological trophic system and Xenema, potassium humate and ground quartz sand are applied onto seeds during direct sowing in doses of accordingly 1-2 l/ha; 1-2 l/ha; 0.5 l/ha and 5 kg/ha, besides, the combed density prior to direct sowing is laid onto soil. The device comprises a device to comb standing plants with a transporting tool, a sprayer, comprising a tank and a rod with spray nozzles, behind which there are wavy disks and double-disk ploughshares arranged along with the device motion. The sprayer rod is fixed under the transporting tool to comb standing plants. The sprayer is equipped with an additional tank connected to double-disk ploughshares by means of pipelines, and wavy disks are equipped with a stem stacker arranged in front of them.

EFFECT: group of inventions makes it possible to produce two wholesome harvests at one field with simultaneous recovery of soil fertility.

4 cl, 3 dwg, 2 ex

Description

The present invention relates to the field of agriculture, in particular to methods and devices combining harvesting and sowing crops.

A known method and device for cultivating crops, including harvesting a crop of plants on the root with a device containing dividers arranged in pairs, in a row, longitudinal blade beaters, a casing and a suction nozzle of a pneumatic conveyor with a two-sided perforated fairing facing upward and mounted above adjacent beaters of different pairs, wherein the fairing faces are convex (AS USSR No. 1130226, class A01D 41708, 1984).

The disadvantages of the known method and device for cultivation of crops are a significant shortage of crops, high complexity and significant timelines for technological operations associated with harvesting.

These shortcomings are due to the fact that when harvesting a device for combing plants on the root, the stems did not ripen after harvesting them with grain tow. Plants continue to use moisture and soil nutrients to ripen stems.

In the known method and device for its implementation, the introduction of chemicals into the cenosis during the harvesting process is not ensured, which does not allow controlling the processes of water and nutrient consumption by crop residues and weeds.

This leads to the need to use another machine - a sprayer. In addition, as a rule, surface treatment of the soil with disk cultivators is carried out. Thus, in the known method, several machines pass through the cultivated field and the technological operations performed by them are carried out at certain intervals of time. It is believed that if immediate stubble cultivation after harvesting of spiked crops is not carried out, then a significant amount of moisture evaporates from the soil, which worsens the conditions for the development of the crop that follows in the crop rotation.

Stubble cultivation after harvesting of spiked crops leads to unproductive loss of moisture, since plant mulch is destroyed during peeling, soil that is black in the chernozem zone is removed to the surface, in addition, the soil is crushed, i.e. its structure is destroyed. Places of black color on the surface of the soil overheat under the influence of sunlight, the soil dries up to the entire depth of processing. (This does not happen if the soil is under a layer of plant mulch.) Thus, stubble peeling leads to overheating of the soil, loss of moisture in it, cessation of microbiological processes, active activity of earthworms and shrews at the depth of cultivation. Ultimately, soil fertility decreases.

Failure in crop rotation from sowing a second crop leads to soil degradation, since in order to obtain the necessary soil structure and fight against weeds, there is a need for deep plowing with a turnover of the reservoir.

When plowing with a turnover of the formation in the upper soil layer to the depth of plowing, the monolith is destroyed, the surface cover of the soil formed by plants moves to the bottom of the furrow. In this case, anaerobic microorganisms move to the vital area of aerobic microorganisms and their vital activity is violated. The capillaries of the soil are broken down to the depth of the sole, the granular structure of the soil in the plowed layer is deformed with the formation of its dust particles. The humic coating of the walls of subsoil canals is destroyed. Soil not protected by humic acids “dissolves” under the influence of precipitation. The permeability of the upper plowed soil layer is reduced. Intrasoil canals that reach the soil surface are destroyed, the microflora perishes. This generally leads to soil degradation and a decrease in its fertility.

A known method and device for cultivating crops, including direct sowing with a seeder containing two rows of wavy discs, double disc coulters and packer rollers (seeders "Marliss" and "Great Plains" USA in the book. K. Soht. Machine technologies for cultivating grain crops. Krasnodar 2001, pp. 214-215).

The disadvantages of the known method and device for cultivation of crops are a significant shortage of crops and the complexity of the work.

These shortcomings are due to the fact that the sowing of the second crop is not carried out together with the harvest of the previous crop and immediately after it, but separately and after a certain time. A time gap between the technological processes of harvesting and sowing the subsequent crop, equal to several hours, leads to a change in the physical and mechanical properties of the soil, the loss of its productive moisture due to evaporation and, as a result, the conditions for laying seeds in the soil worsen, and ultimately decrease crop yield.

In practice, the time gap between harvesting and sowing the subsequent crop reaches several days, which leads to a significant deterioration in the conditions for laying seeds in the soil.

In addition, the age of the weed vegetation in the cultivated field changes, increasing, therefore, its resistance to the effects of herbicides. This necessitates an increase in effective doses of herbicides. Which increases the cost of agricultural production.

Separate harvesting and sowing of the subsequent crop is carried out in two passes of agricultural machines - harvesting and sowing, which increases the complexity of the work.

There is a method and device for cultivating cereal crops, including harvesting grain with a grain crop by a combing adapter used instead of the threshing header of the KZR-12 combine, which is combined with the Polesye-2-350 mobile energy tool, grinding the stalk and mulching the upper layer soil with the simultaneous application of nitrogen fertilizers. To ensure the above technological operations, the Polesie-2-350 energy facility is aggregated with a BDTM heavy-disc harrow, on which a hopper with a device for applying solid nitrogen fertilizers is mounted (Maslov G.G., Abaev V.V., Maslovsky V.I. transport complex of a new generation. Proceedings of the Kuban State Agrarian University. Issue No. 4, 2008, pp. 199-203).

The disadvantages of the known method and device for the cultivation of cereal crops are a significant shortage of yield and a decrease in soil fertility.

These shortcomings are due to the fact that the combination of technological processes - harvesting and surface treatment of the soil with a disk harrow in order to embed stubble in a crushed state in the soil with the preliminary introduction of nitrogen fertilizers, reduces soil fertility. The use of nitrogen fertilizers, especially in liquid form, leads to poisoning of earthworms and shrews, decomposition of organic residues on the surface and in the upper soil layer with the participation of aerobic microorganisms. The decomposition of organic residues due to nitrogen fertilizers leads to inhibition of the activity of bacteria belonging to the aerobic form. These bacteria fix nitrogen available to plants, as a result of which there is an acute deficit of nitrogen in the soil, the elimination of which requires the additional application of this fertilizer.

In addition, the application of nitrogen fertilizers leads to the destruction of natural humic acids (humus) in the upper soil layer.

Leaf-stem mass of plants - stubble after treatment with a heavy disk harrow does not lose viability and the introduction of nitrogen fertilizers leads to the growth of the afternoon. Otava grows even when plowing stubble. Aftermath can be used to accumulate biomass in the soil, but then additional tillage is required. At the same time, pathogens of the harvested crop accumulate in the soil.

The closest in technological essence and the achieved result to the proposed method and apparatus for cultivating crops is a method and apparatus for cultivating crops, including harvesting with a grain hemp, used instead of the threshing header of the KZR-12 combine, which is combined with the Polesye mobile energy tool - 2-350 ", spraying the combed stalk with a solution of nitrogen fertilizers with a sprayer including a tank, a rod with ejection-slotted sprayers fins, a compressor with a receiver, connected by highways and hung as a Polesie-2-350 power tool, direct sowing of the next in the crop rotation of a crop by the Great Plains seeder attached to the Polesie-2-350 towing device (G. Maslov , Abaev V.V., Maslovsky V.I. Harvesting and transport complex of a new generation. Proceedings of the Kuban State Agrarian University. Issue No. 4, 2008, pp. 199-203 - prototype).

The disadvantage of the method and device for the cultivation of crops, taken as a prototype, are significant crop losses.

These disadvantages are due to the following. Harvesting cereals of cereal crops during the period of full maturation of grains requires harvesting in a short time. However, for various reasons, it is possible that the harvesting period is longer than that specified by agricultural requirements. This leads to losses in the grain yield of the cultivated agricultural crop. In addition, the harvesting of cereal crops during the period of full ripening of the grains reduces the time period allocated for cultivation of the subsequent crop in the crop rotation. Direct sowing by combed stalk taken as a prototype unit requires protection of the sowing from weeds. In the case of a chemical method of protecting crops from weeds, pathogens and pests, an additional passage of the sprayer through the sown field is necessary. The lack of measures to protect crops from weeds, pests and diseases will not allow you to get a full crop of the subsequent crop rotation. The application of nitrogen mineral fertilizers, in particular solid nitrogen, after harvesting leads to salinization of the upper soil layer and the death of earthworms in it. In addition, nitrogen fertilizers embedded in the furrow formed by the wavy discs of seeders for direct sowing are used to feed microorganisms that decompose organics without access to atmospheric oxygen, which reduces the activity of its fixation by plants of cultivated agricultural crops.

The technical solution to the problem is to increase the efficiency of the use of soil fertility by agricultural plants.

The solution to the problem is achieved by the fact that in the method of cultivating crops, including harvesting grain crops of cereal crops with brushing on the vine, spraying combed stalks with preparations and direct sowing of another crop in the crop rotation, according to the invention, grain harvesting is carried out during its milk-wax ripeness, “Roundup” herbicide and effective microorganisms-1 of the microbiological trophic system (EM-1 MBTS) are applied to the combed stalk, respectively, at a rate of 2-3 l / ha and 1-2 l / ha, and a tank mixture of effective microorganisms EM - 1 MBTS and Xenem, potassium humate and crushed quartz sand in doses of 1 ... 2 l / ha is applied to the seeds with direct seeding; 1 ... 2 l / ha; 0.5 l / ha and 5 kg / ha, and combed with a stalk before direct sowing is laid on the soil.

In a preferred embodiment, the cultivation of crops, the grain harvest is stored without oxygen, previously adding table salt at a rate of 30 kg / t.

The method is implemented by a crop cultivation unit, comprising a device for harvesting plants on the vine with a transporting working body, a sprayer including a tank and a spray boom, behind which, along the movement of the unit, wavy discs and double disc coulters are placed, according to the invention, the sprayer boom is fixed under the transporting working body devices for brushing plants on the vine, the sprayer is equipped with an additional tank connected to double-disc coulters by pipelines, and istye stebleukladchikom wheels are provided, positioned in front of them.

In a preferred embodiment, the stacker is made in the form of a beam located at an angle to the longitudinal axis of the unit.

Due to the distinguishing features of the method, that is, harvesting grain during the period of milk-wax ripeness, the biological value of the grain crop used both for food purposes and for seeds increases. Grain in this case is rich in proteins and gluten, and starch is practically absent, not having time to form. But there are dextrins, which improves the digestibility of grain, which means its nutritional value.

Comparative laboratory tests showed that the germination and germination energy of seeds of winter and spring ears of crops harvested during full maturity and during milk-wax ripeness does not differ.

The start date for harvesting is postponed on average 20 days earlier than when harvesting a ripened grain crop. This increases the growing time of the subsequent crop rotation. This allows you to use not only precocious varieties of crops, but also mid-season.

In addition, a moisture reserve is maintained in the soil used by the ripening plants. In the proposed method, this moisture is used by the seeds of the subsequent crop rotation.

Physico-mechanical characteristics of the soil is better for seeding with direct sowing of subsequent crops than in the method adopted for the prototype. This is due to the loss of moisture in the soil due to its evaporation every summer day.

Application of Roundup herbicide and effective microorganisms ЕМ - 1 MBTS onto a combed with a stalked tank tank allows for 1 pass, both combined with harvesting and direct sowing, to apply both preparations to the stalk and soil. We experimentally established that the Roundup herbicide has no inhibitory effect on the consortium of effective microorganisms EM - 1 MBTS. Roundup herbicide is a systemic herbicide. Its effectiveness decreases as the plant ripens and its moisture content decreases. Thus, its effect on combed stalked grains combed during milky-wax ripeness is more effective.

Effective microorganisms EM - 1 MBTS “start” the process of nitrogen accumulation in the soil by decomposing plant debris and other organics on the soil surface. This provides a sufficient amount of nitrogen in a digestible form for the development of plants subsequent to crop rotation and eliminates the need for nitrogen fertilizers. The content of CO ₂ in agrophytocenosis increases and thus photosynthesis of plants is activated.

The ratio in the tank mixture of the herbicide and effective microorganisms, respectively, 2 ... 3 l / ha and 1 ... 2 l / ha ensures their effective action at a minimum flow rate, which has been established experimentally.

The application to the seeds during planting them in the soil with direct sowing, that is, when laying the seeds in the open bed of a furrow formed by double-disc coulters, before sprinkling them with soil, a tank mixture of effective microorganisms EM - 1 MBTS and Xenema, potassium humate and crushed silica sand - Selikagel improves the conditions for seed germination and further development of plants, increasing the yield of cultivated crops. Effective microorganisms increase the resistance of germinating seeds to diseases and in the zone of their activity destroy phytotoxins and aleopaths.

Xenem increases the resistance of germinating seeds to pests. Xenem enzymes suppress the enzyme systems of insects, ticks, arachnids, and also injure insects, dissolving their chitinous cover.

Selica gel, which is an adsorbent, provides the direction of movement of moisture in the soil to germinating seeds. Selikagel cools the soil in the sowing zone of sown seeds, which at night causes condensation of moisture from the soil - air erosion. At the same time, potassium humate affects the metabolic processes in the seeds, accelerating the movement of nutrients to the embryos. This improves the process of emergence of seedlings and increases their uniformity.

The ratio in the tank mixture of EM preparations is 1 MBTS, Xenem, potassium humate and Selikagel, respectively 1 ... 2 l / ha, 1 ... 2 l / ha; 0.5 l / ha and 5 kg / ha ensures their effective impact at a minimum flow rate, which is established experimentally.

Laying the stems of plants on the soil after harvesting and before direct sowing of the next crop in the crop rotation speeds up the process of their decomposition and better protects the soil surface from exposure to the sun.

Storage of the grain crop harvested during milk-wax ripeness without oxygen access with preliminary introduction of table salt of their calculation of 30 kg per ton of grain preserves the grain harvest, harvested in the phase of milk-wax ripeness. Salt stops the work of all enzymes of grain and microflora. The limited access of oxygen to the grain leads to the fact that for some time the process of respiration of the grain continues with the release of carbon dioxide, which under the influence of surrounding moisture forms carbon dioxide, which, together with sodium chloride, preserves the grain in the milky-wax ripeness phase.

Due to the distinctive features of the unit for cultivating crops, that is, the placement of the sprayer boom under the transporting working body of the plant washer plant, the compactness of the entire unit is achieved, while the bottom of the feed conveyor of the combing device is the supporting structure of the boom with sprayers.

In addition, the combed stems of the plants at the time of applying the tank mixture from the sprayers are in an inclined position under the action of the bottom of the feed conveyor. This allows you to apply the tank mixture primarily on the afternoon, soil surfaces and weeds, and not on the upper part of the combed stalk. This increases the effectiveness of the tank mixture.

The supply of the sprayer of the unit with an additional tank connected to the double-disc coulters by pipelines allows simultaneous spraying of the second tank mixture in one pass of the unit.

The supply of corrugated discs with a stacker provides the necessary effect on the stalk during the movement of the unit along the field.

The execution of the stacker in the form of a beam, located at an angle to the longitudinal axis of the unit, provides the laying of stems on the soil at an angle to the longitudinal axis of the unit, which provides better conditions for their cutting by wavy discs.

The analysis of the properties of the totality of the features of the claimed method and the properties of the totality of the features of the detected prototype and analogues showed that the combination of the features of the claimed method exhibits a new property - provides the architectonics of the soil, similar to the soil monolith of virgin soil, by loosening loosening the soil due to root rotation of cultivated and weed plants.

The analysis of the properties of the totality of the features of the claimed unit and the properties of the totality of the features of the detected prototype and analogues showed that the combination of the features of the claimed method exhibits a new property - the concentration of all the main technological operations of cultivating two adjacent crops in the rotation of space in time and time.

Figure 1 schematically shows the claimed unit for the cultivation of crops, side view; figure 2 is the same in view A of figure 1; figure 3 shows a double disc coulter by type B in figure 2.

The unit for cultivating crops contains a device for combing grain on the root 1 with a transporting working body 2, a hopper 3 with an unloading conveyor 4, a tank 5 with a crane 6 on the pipeline 7, connected to a rod 8, placed under the transporting working body 2. The rod 8 has nozzles 9, to which the compressor 10 and the receiver 11 are connected through a pneumatic line 12 with a valve 13. An additional tank 14 is connected to pipelines 15 having valves 16, and the ends of which are located in the interdisk space of the double-disc coulters 17, which, together with sowing apparatuses 18 and rolling rollers 19, are fixed by means of parallelogram suspensions 20 to the chassis 21. In front of the double-disc coulters 17 there are wavy disks 22 equipped with a stacker 23 made in the form of a bar located at an angle to the direction of movement of the unit. On the chassis 21, a seed hopper 24 is fixed, connected by pipelines 25 to the metering units 18, an engine 26 and a cabin 27. To eliminate the effect of the solution from the spray nozzles 9 of the rod 8 on the sides of the transporting body 2, the screens are fixed in a vertically longitudinal plane in windy weather conditions on the spray torches. 28.

An example of a specific implementation of the proposed method and aggregate cultivation of crops

At the end of the filling of the grains of cereal crops, the beginning of their ripening, visually fixed as the beginning of yellowing of the grains, harvesting begins. A device for combing grain on the root 1 in the process of moving the unit for cultivating crops across the field separates the grains from the ears of plants, and the transporting working body feeds them to the hopper 3. After each next filling of the hopper 3, the grain harvest is unloaded by the conveyor 4 into the vehicle and transported to stationary conditions for post-harvest processing.

This grain, which is at the ripening stage of milk-wax ripeness, is preserved for food purposes, and dried for seeds.

Grain crop conservation is carried out, for example, by adding, after preliminary separation of impurities on seed cleaning machines, table salt at the rate of up to 30 kg per 1 ton (3%), and then packing into sealed plastic bags with a capacity of up to 12 tons. Before consuming canned grain, it is washed with water to remove table salt.

Drying of the grain crop is carried out, after preliminary separation of impurities on seed cleaning machines, by active ventilation at an air temperature of 25 ... 40 ° C for 8 ... 10 hours until it acquires a loose state, which corresponds to 14% of the moisture content in the grain.

Simultaneously with the harvesting of grain by the device for combing grain on the root 1 during the movement of the unit for cultivating crops across the field, the stalks from which the grains are harvested are applied to the tank mixture of preparations through sprayers 9 of rod 8 through pipeline 7 with a tap from tank 5. Tank mixture from the nozzles 9 is supplied by jets of air, the excess pressure of which is created using a compressor 10, a receiver 11 and a pneumatic pipe 13 with a valve 12.

A tank mixture of drugs is prepared previously. It includes: water in a dose of 5 l / ha to 2000 l / ha; Roundup herbicide - 1 ... 2 l / ha; effective microorganisms EM - 1 MBTS - 1 ... 2 l / ha

To prepare a tank mixture, for example, take a capacity of 1000 liters (1 m ³ ) and fill it with ten times the norm of each component: the Roundup herbicide - 20 liters and EM - 1 MBTS - 20 liters. Then the container is completely filled with water, that is, these components are diluted in 960 liters of water and mixed. This tank mixture is consumed during the cleaning process at the rate of 100 l / ha.

A second tank mixture is preliminarily prepared for application to the seed incorporation zone in the soil, which is filled with tank 14. It includes effective microorganisms EM - 1 MBTS in a dose of 1 ... 2 l / ha and Xenem in a dose of 1 ... 2 l / ha; potassium humate in a dose of 0.5 l / ha, as well as crushed quartz sand - Silica gel in a dose of 5 kg / ha.

To prepare this tank mixture, for example, a capacity of 1000 liters (1 m ³ ) is filled with a ten-hectare application rate of each component: effective microorganisms EM - 1 MBTS - 20 liters and Xenema - 20 liters, potassium humate - 5 liters and Selikagel - 50 kg. Then the tank is completely filled with water and the tank mixture is mixed. This tank mixture is consumed during sowing at the rate of 100 l / ha.

Then, in the process of moving the aggregate across the field, a combed stalk, on which the tank mixture from tank 5 is applied, is affected by the stacker, which presses the stems to the soil, laying them at an angle to the direction of movement of the aggregate through the field. In this position, the stems are exposed to the wavy discs 22, which cut them. The wavy discs 22 pre-treat the soil for the subsequent formation of furrows with double-disc coulters 17, into which seeds from the next crop rotation crop are fed from the sowing units 18 of the seed hopper 24. Varieties of plant crops with a short growing season are sown: spring barley, buckwheat, millet, soybean, sunflower, beetroot, etc. In the interdisc space of the double-disc coulters 17, the tank mixture comes from the additional tank 14 through the pipelines 15 after the sown seeds and soil near them. After of this, the seeds with the tank mixture are covered with soil from the walls of the furrows, which are compacted by packer rollers 19.

In the ground air layer of the field, effective microorganisms deposited on the plant remains of the previous culture (crushed stems, stubble, root system) create a higher content of carbon dioxide in comparison with the natural background, which penetrates the air channels of the soil into it and interacting with the water contained in it in the soil, forms carbon dioxide (H ₂ CO ₃ ). This acid increases the content in the soil of mobile forms of all compounds of macro- and microelements and makes them available for assimilation by plants. Carbon dioxide in the surface soil layer is used in photosynthesis, providing an increased content of biomass, cultivated plants, in particular grain, as well as plant resistance to environmental stress factors (temperature, drought, frost, etc.) In addition, plant debris on the soil surface decomposes under the action of effective microorganisms using nitrogen from the air, which oxidizes and becomes water-soluble, accumulates in the soil and is used by plants of the subsequent culture, seeded le harvest of the previous crop.

After ripening and harvesting, the crops that follow in the crop rotation are sowed winter crops with zero tillage.

Run Example 2

The technological operations of harvesting, processing the stalk and seeds, sowing is carried out, as in example 1.

In the seed-growing process, post-harvest treatment of seeds harvested during milk-wax ripeness begins by cleaning it from impurities on seed-cleaning machines, and then it is immediately dried in the active ventilation mode at a temperature of 25.0 ... 36.0 ° С for 2 ... 3 hours, then the moisture content in the grains is adjusted to 9 ... 14% in the heating medium heating mode by + 1 ... + 2 ° С to the ambient air.

Using the proposed method and unit for cultivating crops in comparison with known methods and aggregates for cultivating crops allows you to get two full crops in one field while restoring soil fertility, as well as reduce the complexity and time spent on cultivating crops.

Claims (4)

1. A method of cultivating crops, including harvesting grain crops of cereal crops with bedding, spraying combed stalks with preparations and direct sowing of another crop in the crop rotation, characterized in that the harvesting of grain is carried out during its milky-wax ripeness, on the combed stalk apply the Roundup herbicide and effective microorganisms-1 of the microbiological trophic system at the rate of 2-3 l / ha and 1-2 l / ha, respectively, and apply to seeds with direct sowing What are the mixture of effective microorganisms, trophic systems 1 and microbiological Ksenemy, potassium humate and crushed quartz sand in doses respectively 1-2 l / ha; 1-2 l / ha; 0.5 l / ha and 5 kg / ha, and combed with a stalk before direct sowing is laid on the soil. 2. The method of cultivation of crops according to claim 1, characterized in that the grain yield is stored without oxygen, previously adding table salt at a rate of 30 kg / t. 3. A crop cultivating unit comprising a standing crop washer with a transporting working body, a sprayer including a tank and a spray boom, behind which, along with the movement of the unit, wavy discs and double disc coulters are placed, characterized in that the sprayer boom is fixed under the transport the working body of the device for combing plants on the vine, the sprayer is equipped with an additional tank connected to the double-disc coulters by pipelines, and the corrugated disks are equipped with s by the stacker located in front of them. 4. The unit for cultivation of crops according to claim 3, characterized in that the stacker is made in the form of a beam located at an angle to the longitudinal axis of the unit.

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