UA146669U - METHOD OF APPLICATION OF FERTILIZERS AT THE SAME TIME WITH DEEP TILLAGE - Google Patents

Abstract

The method of applying fertilizers simultaneously with deep tillage includes multi-depth strip loosening of soil layers with tillage implements and step-by-tier supply of fertilizers to the depth of cultivation. Simultaneously with cultivation, the content of the main elements of mineral nutrition of plants in the soil is monitored, based on the results of which, taking into account the yield map of the harvested predecessor, a differentiated fertilizer rate is determined individually for each working body. Fertilizers are fed into the soil in a gel-like (pasty) state under excess pressure, which is created by the hydraulic system of the aggregate tractor through auxiliary technological channels located in the racks and working bodies of the tillage implement.

Description

The useful model belongs to agriculture and agricultural engineering, in particular, it concerns technologies and equipment for applying mineral fertilizers during the main tillage.

The well-known method of applying fertilizers simultaneously with plowing (patent of the Russian Federation Mo 2328102, AO18 049/06, AOTS 007/06, publ. 07.10.2008, Bull. 19) is taken as the closest analogue, which includes multi-depth strip loosening of the soil layers by tillage tools and step-by-step feeding of fertilizers to the depth of cultivation.

The disadvantage of this method of applying fertilizers at the same time as plowing is the lack of the possibility of applying technologies of variable fertilizer application rates. The latter are today a trend in precision farming systems. Using special sensors, the content of nutrients in the soil layer is determined and, without drawing up electronic maps, the data is transferred directly to the executive mechanism for applying differentiated rates of mineral fertilizers. In the end, this involves obtaining profit in the form of more products, better quality, improvement of the ecological state of the environment and the general level of agricultural culture.

Also, the disadvantages of this method include a high probability of clogging of technological channels with soil and fertilizers at the depth of cultivation, low uniformity of distribution of fertilizers along the width of the working body, and a low degree of their assimilation by agricultural plants in agrophytocenoses.

The useful model is based on the task of increasing the efficiency of fertilizer application at the same time as deep tillage by applying them to the soil in a gel-like (paste-like) state under excess pressure and creating conditions for the implementation of the technology of variable rates of fertilizer application individually for each working organ. This will make it possible to get the maximum profit with the minimum consumption of fertilizers due to the improvement of the quality of their application, conditions of growth and development of cultivated plants.

The task is solved by the fact that in the method of applying fertilizers simultaneously with deep tillage, which includes multi-depth band loosening of soil layers with soil tillage tools and step-level supply of fertilizers to the depth of tillage, according to a useful model, the content of the main elements of mineral nutrition is monitored simultaneously with tillage plants in the soil, according to the results of which, taking into account the cartogram

Based on the yield of the collected precursor, a differentiated fertilizer application rate is determined individually for each working body, and the fertilizers themselves are fed into the soil in a gel-like (paste-like) state under excess pressure, which is created by the hydraulic system of the aggregating tractor through auxiliary technological channels located in the racks and working bodies of the tillage machine instrument.

Thus, fundamentally new operations are introduced in this method to the existing method of applying fertilizers simultaneously with deep tillage. The first of which is monitoring the content of trace elements in the soil. Sensors that function on a real time scale measure the content of the main elements of plant mineral nutrition in the soil during the movement of the unit. Then, with the help of the controller, based on the information received from the sensors, the dose of fertilizer application is adjusted. At the same time, the sensors provide a continuous flow of information to the controller. The controller exerts a controlling influence on the executive mechanism, which allows differential application of fertilizer doses to each elemental section of the field, which is the second operation. The third operation is the introduction of fertilizers into the soil in a gel-like (paste-like) state under excess pressure. This allows you to avoid clogging of the technological channels located in the racks and working bodies of the tillage tool. And also improves the quality of their step-by-tier feeding into the soil at the depth of cultivation.

The implementation of the claimed method is explained by the drawing, where in Fig. 1 shows a diagram of the formation of a task for a differentiated rate of fertilizer application, in Fig. 2 - a scheme of multi-depth strip loosening of soil layers with a tillage tool with simultaneous step-in-line supply of fertilizers to the depth of cultivation (front view), on

Fig. C - the same top view.

The scheme of forming a task for a differentiated rate of fertilizer application to the soil (Fig. 1) includes sensors 1 or sensors for monitoring the content of the main elements of plant mineral nutrition in the soil, controller 2, a map of the yield of the collected predecessor 3, software 4, which allows you to process the received information, analyze it and make management decisions regarding the necessary action on each of the field sections with their coordinates, the executive mechanisms of the 1st working body 5, the second working body 6, the ith working body 7, excess pressure 8 from the hydraulic system of the aggregating tractor.

The soil tillage tool (Fig. 2 and Fig. 3) for the implementation of the method of applying fertilizers simultaneously 60 with deep tillage of the soil to a depth of H contains a frame 9, successively arranged one after the other and fixed on it working bodies 10 for deep shelfless tillage of the soil in strips of their width delight Each working body 10 contains a rack 11 and sensors 12 or sensors attached to it for monitoring the content of the main elements of plant mineral nutrition in the soil. Also, the tool contains devices 13 for surface treatment of the soil.

The tillage tool is equipped with containers 14, which contain fertilizers 15 in a gel-like (paste-like) state. Executive mechanisms 16 for differentiated supply of fertilizers 15 are attached to containers 14 individually for each working body 10. The hydraulic drive of executive mechanisms 16 is hydraulically connected to the hydraulic system of the aggregating tractor with high-pressure hoses 17 and performs their remote activation. Each working body 10 with a stand 11 is equipped with a group of technological channels 18 for feeding fertilizers 15 into the soil through them.

The information confirming the possibility of implementing the claimed method is as follows.

The proposed method of applying mineral fertilizers (phosphorus and potash) is implemented mainly in the autumn period simultaneously with the main tillage. The method involves multi-depth strip loosening of soil layers with a tillage tool with a three-tier arrangement of working bodies to a depth of 35 cm and a step-tier supply of fertilizers 15 to a depth of cultivation N. The working bodies 10 of the tool are placed frontally in three rows on the frame 9 with an increase in the depth of their stroke for each next row The width of the strip of loosening of the soil layers by each working body is 0.35 m. With the specified width of the strips, a high degree of loosening of the soil layer and preservation of the stubble background of the previous agricultural crop is achieved. The arrangement of the working bodies 10 on the frame of the tool is carried out taking into account the zone of soil deformation by each working body 10 and with such a calculation that it is not clogged with harvest residues in the area between their racks 11. At the same time, the differences in the depth of soil cultivation by the working bodies 10 of each tier are 0.05 - 0.08 m. In each strip of treated soil, the plow sole is destroyed by working bodies 10.

Each working body 10 of the tillage tool is equipped with sensors 12 or sensors for determining soil parameters on the go. They can be electric, electromagnetic or optical sensors, which have recently gained the greatest popularity in the world for determining the content of the main elements of mineral nutrition of plants in the soil.

Sensors 12 at the same time provide a continuous flow of information to the controller 2.

Controller 2 functions as a microprocessor or PC. It is connected to the executive mechanism 16 of the tillage tool and controls the dose of fertilizer application 15. Also, the controller 2 has a data bank on the yield of agricultural crops. predecessor culture, which is represented in the coordinate system and is strictly connected to a specific field (yield map). And it also contains software 4, which allows you to process the received information, analyze it and make management decisions regarding the necessary action on each of the field sections with their coordinates. For this purpose, the tillage unit can be equipped, for example, with the SR5 global positioning system, which determines the location of the tillage tool. With the help of ORB5 and controller 2, differentiated doses of fertilizers 15 are applied to each elementary section of the field. Then, with the help of the controller 2, based on the information received from the sensors 12, the dose of fertilizer application 15 is adjusted by sending a signal to the executive mechanism 16 of the tillage tool. Controller 2 is multi-channel.

Each of its channels controls the dose of introduction of one element of plant nutrition under each working organ 10.

The executive mechanism 16 differentiates the supply of fertilizers 15 to the soil under excess pressure, which is created by the hydraulic system of the aggregating tractor through the auxiliary technological channels 18 located in the racks 11 and working bodies 10 of the tillage tool.

Due to the fact that the fertilizers 15 themselves are fed into the soil in a gel-like (paste-like) state under excessive pressure, there is no clogging of the technological channels 18 located in the racks 11 and working bodies 10 of the tillage tool. And the quality of their step-by-tier feeding into the soil at the depth of cultivation also improves. At the same time, the gel-like (paste-like) state of applied fertilizers 15 in the soil temporarily preserves their shape and volume. During the autumn-winter period, moisture accumulates in the treated soil strips. Under the influence of moisture, phosphorus and potash fertilizers change from a gel-like (paste-like) state to a liquid state. In the presence of a liquid phase, fertilizers 15 enter into soil reactions. At the same time, due to the ascending and descending flows of aqueous solutions, the soil horizon is saturated with nutrient solutions. After sowing the seeds of agricultural crops, plant roots penetrate the thickness of the arable layer.

The step-level execution of the strips excludes the washing off of applied fertilizers from the depth of their laying and increases the reserves of soil moisture.

Thus, due to the additional supply of fertilizers to the soil in a gel-like (paste-like) state under excess pressure and the creation of conditions for the implementation of the technology of variable rates of fertilizer application individually for each working organ, it is possible to obtain the maximum yield of agricultural crops with minimal consumption of fertilizers due to the improvement of the quality of their application, conditions growth and development of cultivated plants.

Claims (1)

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