RU2452167C1 - Method and device for differentiated sowing application of basic and starting doses of mineral fertilisers - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to crop production, in particular intrasoil fertilisation simultaneously with sowing. In the method of differentiated sowing application of mineral fertilisers the basic and starting doses of fertilisers are applied simultaneously with sowing and together with seeds for 4-10 cm deeper than seeding-down. Before sowing, the information is obtained about the parameters of fertility of the field in the system of global coordinates. Then an electronic map of a rational need in elements of nutrition of the cultivated crop for obtaining the optimum yield is made. The required dose of mineral fertilisers application per each elementary area of the field is established. The data from the map are sent to the microprocessor that controls the operation of metering unit of mineral fertilisers. The amount of fertilisers sown, designed for each elementary area of the field, is distributed to the start and the basic dose. The device for differentiated sowing application of the basic and the starting doses of mineral fertilisers comprises a hopper for seeds and a hopper for fertilisers, seed metre, highly adaptive metering unit of fertilisers, pneumatic system of sowing seeds and fertilisers. The device is equipped with a positioning system GLONASS/GPS.

EFFECT: sound management of productional process, increase in payback and efficiency of mineral fertilisers.

2 cl, 1 dwg

Description

The invention relates to the field of crop production of agricultural production, in particular to intra-soil fertilization simultaneously with sowing.

Known methods of applying granular mineral fertilizers simultaneously with the sowing of seeds, carried out by pneumomechanical seeders. In these methods and devices, only the starting dose of fertilizers or only the full dose of fertilizers is applied together with the seeds.

So, the S-6PM1 seeder is applied together with the seeds of a fixed starting dose, which allows them to be used rationally only during the formation of the primary root system and reduces the rate of plant development in the phases of the crop formation (Prospectus for the P-1PM1 pneumatic seeder, Radiozavod OJSC) .

The prospectus of Kongskilde industries A / S presents the Combi-drill jet method, in which full-dose fertilizers are applied away from the row of seeds, which improves the development of the root system (Prospectus from Kongskilde industries A / S (method, Combi-drill jet method). Sowing and application is carried out by the CD 3304 machine.

Research data from the same company show that when a full dose is placed in the seed sowing zone, the root system is formed in the soil mainly in the upper part of the arable layer. As a result, the payback of fertilizers even decreases compared to surface application and amounts to only 90%.

Due to the concentration of the root system in a limited volume of soil, the fertility potential of the arable layer of the row-spacing soil is practically not used. With a change in soil moisture, especially in the upper layers as a result of even a short drought, the plants wither or even die.

Closest to the technical nature of the claimed method is the selected as a prototype method of introducing a starting dose, which consists in the fact that both the main and starting doses of fertilizers are applied together with the seeds. In this case, the main dose of fertilizers is placed 4-5 cm deeper than the seed sowing using the “duet” coulter with the PPF system presented in the “HORSCH - AGROSOYUZ” sowing complex (Prospectus of the company “HORSCH - AGROSOYUZ”).

The main disadvantage of this method is that it does not differentiate the dose of fertilizers in the process of performing the technological process of sowing.

The design of the sowing unit of the joint production of HORSCH Germany and Agrosoyuz Corporation - a pneumatic seeder - provides a sowing local application of mineral fertilizers.

A significant drawback of the method and design of the technical means for its implementation is that the fertilizer dose during the operation of the unit does not differentiate depending on the nutrient content in different parts of the field, and also that the fertilizers are placed in the same vertical plane with the seeds. With this arrangement of fertilizers, the root system is formed along the row. Moreover, the rational use of the potential of the entire volume of soil fertility is not achieved.

The technical task of the invention is the rational management of plant growth and development, increasing the return on mineral fertilizers. All this determines the effectiveness of the new.

This object is achieved by the fact that in the method of differentiated sowing separate application of the main and starting doses of mineral fertilizers, which consists in the fact that at the same time the main dose of mineral fertilizers and the starting dose of fertilizers are applied together with the seeds, according to the invention, information on spatial variability of fertility parameters is obtained and interpreted fields in the global coordinate system, based on the responsiveness function of the cultivated crop, taking into account the fertility parameters of each element of the amber field and other significant factors that determine the yield, compile an electronic map of the rational need for fertilizers of the cultivated crop to obtain the optimal yield, set the required dose of mineral fertilizers for each elementary field, the data from the card is transmitted to the microprocessor that controls the operation of the fertilizer dispenser and by magnetic valves of the distribution head of the pneumatic system of distribution of mineral fertilizers in fertilizers intended for each elementary field section, they are divided into two flows - the main and starting dose in the ratio 1: 5 ÷ 1: 20, the starting dose of fertilizers is sent to the mixing chamber of the seed sowing system and the mixture is closed in the formed furrow with seeds, the main fertilizers make locally in the rows of seeds sown 4-10 cm deeper than the seed.

Comparison of the proposed method with the prototype shows that it is new that they receive and interpret information on the spatial variability of the field fertility parameters in the global coordinate system, based on the responsiveness of the cultivated crop, taking into account the fertility parameters of each elementary field section and other significant factors, make up the electronic a map of the rational need for nutrients of the cultivated crop to obtain optimal productivity, establish the required dose For each elementary section of the field, the data from the card is transferred to the microprocessor that controls the operation of the fertilizer dispenser and the magnetic valves of the distribution head of the pneumatic system of distribution of mineral fertilizers, the sown amount of fertilizers intended for each elementary section of the field is redistributed into two streams - the main and starting doses in 1: 5 ÷ 1: 20 ratio, the starting dose of fertilizers is sent to the mixing chamber of the seed sowing system and the mixture is closed up into the formed furrow and seeded with the same depth, the basic fertilizers are applied locally between the rows of seeds sown at 4-10 cm deeper seeding.

The technical task is achieved in that the device for differentiated sowing of the main and starting doses of mineral fertilizers, including hoppers for seeds and fertilizers, seed metering, highly adaptive fertilizer metering, pneumatic seed and fertilizer metering system with multi-channel distribution heads, according to the invention is equipped with a GPS positioning system - GLONAS, functionally connected via USB-cable or СОМ-port with a computer / microprocessor controlling the dispenser of mineral ud fertilizers, and the pneumatic distribution system of fertilizer sowing is equipped with magnetic valves and nozzles connected to the diffuser and combined with a seed meter and having additional channels for fertilizer discharge into the fertilizer hopper.

Comparison of the claimed device with the prototype shows that the device is equipped with a GPS-GLONAS positioning system, functionally connected via a USB cable or COM port to a computer / microprocessor for controlling the fertilizer dispenser, and the pneumatic distribution system for fertilizer sowing is equipped with magnetic valves and nozzles connecting pneumatic distribution systems of seeds and fertilizers through the diffuser of the mixing chamber of the seed metering device, and also has additional fertilizer discharge channels and from the fertilizer distribution system to the fertilizer hopper.

Thus, the claimed method and device meet the criteria of the invention of "novelty."

The inventive method and device meet the criterion of "unity of invention", since it is such an embodiment of the device that facilitates the implementation of this method.

The inventive method and device meet the criterion of "inventive step", as they are not obvious to a specialist and can achieve a result that satisfies an existing need: rational management of the production process, increasing the return on mineral fertilizers and efficiency.

The inventive method and device meet the criterion of "industrial applicability", as they can be used in technical solutions based on serial pneumatic seeders, for example, type S-6PM1, S-6PM2, designed for cultivating agricultural crops using resource-saving technologies

The device is illustrated in the drawing.

Figure 1 presents a device for differentiated sowing application of the main and starting doses of mineral fertilizers.

The method of differentiated sowing application of the main and starting doses of mineral fertilizers is that they make both the starting and main doses of fertilizers, respectively, together with the seeds and in the aisles. Before sowing, information is obtained and interpreted on the spatial variability of field fertility parameters in the global coordinate system (using GPS - GLONAS equipment), based on the responsiveness function of the cultivated crop, taking into account the fertility parameters of each elementary field section and other significant factors, an electronic map of rational needs is made in nutrients of the cultivated crop to obtain optimal productivity, depending on the properties of the used mineral fertilizers, set the necessary dose is applied to each elementary field section, the data from the card is transferred to a computer / microprocessor that controls the operation of the fertilizer dispenser and the magnetic valves of the distribution head of the pneumatic mineral fertilizer distribution system, the sown amount of fertilizer intended for each elementary field section is redistributed into two streams - starting and main doses in a ratio of 1: 5 ÷ 1: 20. The starting dose of fertilizers is sent to the mixing chamber of the seed sowing system and the mixture is sealed in the formed furrow, the main fertilizers are applied locally in the rows of seeds to be sown 4-10 cm deeper than the seeds.

The formation of rational volumes of fertilizers is carried out through a highly adaptive dosing system.

During the movement of the sowing unit, the optimal amount of the main and starting dose of fertilizers is applied to the elementary field section in accordance with the electronic map.

At the same time, the quantity of fertilizers sown together with the seeds (starting dose of fertilizers) is maintained at the optimal level for each elementary section of the field. This is achieved by appropriate redistribution of the flow of the total dose of fertilizers coming from the fertilizer hopper into the pneumatic seed sowing system between the main and starting components. The starting dose (as a percentage of the main dose in the total volume of fertilizer applied) is controlled by magnetic valves installed on pipelines directing fertilizers to the mixing chamber of the pneumatic seed metering system, and pipelines directing excess mineral fertilizers back to the fertilizer hopper. The control is carried out by changing the number of pipelines directing the flow from the distribution head of mineral fertilizers to the diffuser of the mixing chamber of the pneumatic seed sowing system, and changing the number of pipelines directing part of the mineral fertilizers from the distribution head back to the hopper of mineral fertilizers, while the number of pipelines for introducing the main dose of fertilizer is constantly .

The number of channels corresponds to the row of coulters for the introduction of the main and starting dose of fertilizers and channels that manage the starting dose of mineral fertilizers.

A device for implementing a new method of differentiated sowing of the main and starting doses of mineral fertilizers mounted on the frame of the seeder having hoppers for seeds 1 and fertilizers 2, includes fans 3, metering unit 4 for seeds, diffuser of mixing chamber 5, dispensers 6, mixture channels 7, solenoid valves 8, seed coulter 9 used for spreading the mixture, coulter for fertilizers 10, fertilizer duct for mineral fertilizers 11, highly adaptive metering device 12, fertilizer duct for starter fertilizers 13, channel 14 for fertilizer discharge the hopper.

Some of the channels of the mineral fertilizer distribution system are equipped with magnetic valves 8, which block the pipelines and allow directing the fertilizer starting dose of varying intensities into the seed stream entering the seed distribution system and from there, in the mixture with the seeds, to the working bodies - openers 9, or fertilizer hopper 2. The flow rate of the starting dose of fertilizers is determined by the number of closed (open) valves.

Magnetic valves 8 allow you to adjust the amount of fertilizer supplied to the flow of sown seeds. Excess fertilizer in excess of the optimal dose is discharged into the fertilizer hopper 2.

The highly adaptive fertilizer dispenser 12 and the magnetic valves 8 are controlled by a microprocessor in accordance with the electronic map of the fertilizer demand for each elementary section of the field.

The dispenser 12 allows you to dose the total dose of mineral fertilizers (basic + starting).

The device operates as follows.

Seeds and fertilizers are loaded into the hoppers of the seeder. Fans 3 are included in the operation. Dosing units for seeds 4 and fertilizers 12 are included in the operation. Under the influence of air flows, they are transported to distributors 6 and further via pipelines to their coulters, seeds to 9 and fertilizers to 10. At the initial moment of the seeder operation, the magnetic valves 8 are blocked for fertilizer access to the diffuser 5. In this mode, the seeder works like the existing ones - seeds and fertilizers are fed into the soil separately, at a set distance and depth. When the sowing unit is operating according to exact technology, soil fertility indicators by the content of nitrogen, phosphorus and potassium fertilizers (N, P, K) recorded on an electronic map of the field by its sections in geographical coordinates, using GPS equipment - a GPS signal receiver from satellites, a mobile computer, flash drive, etc., are perceived by the processor / computer under the control of the operating program, which are installed on the sowing unit. Then they are given commands for the magnetic valves 8 and highly adaptive metering unit 12 in a format that ensures coordinated dosing of the starting and main doses of fertilizers in accordance with the electronic map of soil fertility. If there is not enough fertilizer on the seeder pass section, then the computer program / processor calculates their increase to the optimal amount, both when applied with seeds and in the main dose, which is applied at the side and below the rows of sown seeds. In this case, the valve 8 opens the fertilizer access channel through the nozzle 13 from the distributor to the diffuser 5, which is connected to the mixing chamber of the seed meter, where the fertilizers, mixed with the seeds, pass through the channel 7 to the opener 9. If there is enough fertilizer in the soil in the area of the seeder , then the system operates in the reverse order - the computer turns off the magnetic valves 8 connected to the couplings of the coulters 10 to make the main dose of fertilizer, leaving the channels for feeding the starting fertilizer to the seed distributor open th, and also regulates the total volume of their dosing to the optimum. In this case, excess fertilizer from the spreader is sent back to the hopper by valves 8. The device allows you to turn off the fertilizer supply when sowing both the starting and main doses by turning off the metering drive 12. By adjusting the number of fertilizers dispensed by 12 and the number of on / off pipes 13 and 14 with valves 8, set the optimal amount of fertilizer to the soil in accordance with the electronic field map.

A pneumatic multi-channel distribution system with magnetic valves allows you to separate the starting part from the total dose of mineral fertilizers, direct the starting dose into the seed flow and adjust the starting dose by dumping the excess starting dose back into the fertilizer hopper.

The present invention will allow more rational control of the growth and development of cultivated crops, increase yield and payback of fertilizers.

With an increase in the depth of application of the main dose of fertilizers with a shift to the side (from the seeds), their payback increases.

With seeds, only part of the total amount of fertilizers should be applied within 10-30%. Given that the variability of elementary field sections with different contents of nutrients can vary within wide limits (30-70%), the optimal dose of starting doses of mineral fertilizers should also vary within the corresponding limits. The main dose (80-70% of the total) of fertilizers should also differentiate from one elementary section of the field to another, in accordance with a change in the parameters of field fertility. At relatively low doses of applying the total amount of fertilizers, the percentage ratio between the starting and the main doses should shift towards the starting dose, so that it does not exceed a certain value for specific conditions, depending on the biology of the crop, soil fertility and other factors.

The developed prototype is currently undergoing acceptance tests at the Kursk MIS, laboratory studies indicate that the new method is fully implemented using the proposed technical solution.

Claims (2)

1. The method of differentiated sowing of the main and starting doses of mineral fertilizers, which consists in the fact that both the main and starting doses of fertilizers are applied together with the seeds, characterized in that before sowing they receive and interpret information on the spatial variability of the field fertility parameters in the global coordinate system on based on the responsiveness function of the cultivated crop, taking into account the fertility parameters of each elementary field site, an electronic map of rational pot The requirements for cultivated crops to obtain optimal productivity, depending on the properties of the used mineral fertilizers, set the required dose for each elementary field, the data from the card is transferred to a computer / microprocessor that controls the operation of the fertilizer dispenser and the magnetic valves of the distribution head of the pneumatic distribution system mineral fertilizers, sown quantity of fertilizers intended for each elementary section of the field, p they are divided into two streams - the starting and main doses in the ratio of 1: 5 ÷ 1: 20, the starting dose of fertilizers is sent to the seed sowing system and the mixture is embedded in the soil in the formed furrow at the same depth as the seeds, the main fertilizers are applied locally in the center of the row of seeds and 4-10 cm deeper than seeding, depending on the depth of seeding. 2. A device for differentiated sowing application of basic and starting doses of mineral fertilizers, including hoppers for seeds and fertilizers, seed metering, highly adaptive fertilizer metering, pneumatic seed and fertilizer metering systems with multi-channel distribution heads, characterized in that it is equipped with a GLONAS / GPS positioning system functionally connected via a USB cable or COM port to a computer / microprocessor controlling the fertilizer dispenser, and a pneumatic distribution system and the fertilizer is equipped with solenoid valves and nozzles connected to the diffuser of the mixing chamber of the seed meter and having additional channels for discharging fertilizer into the fertilizer hopper.

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