RU2181935C2 - Method and apparatus for applying chemicals with irrigation water by means of discrete irrigation systems - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves irrigation water accumulating and supplying cycles, which are combined with preparing in measuring cylinder of fixed volume of chemicals solution during irrigation cycle; providing discrete metering thereof. Discrete metering of chemicals is conducted at free overflowing and repeated mixing of mentioned volume of chemicals with solutions in accumulator. Apparatus has irrigation water accumulator 1, chemical container 3 made in the form of closed volume. Measuring cylinder 7 is located in upper part of chemical container 3, which is positioned below accumulator 1. Bellows 12 is located inside accumulator 1. Container 3 is in fluid communication with accumulator 1 in the zone proximate to suction branch pipe of bellows 12. Method and apparatus provide for low-intensity application and uniform distribution of chemicals with irrigation water. EFFECT: increased efficiency and simplified method. 3 cl, 1 dwg, 2 tbl

Description

 The invention relates to the field of mechanization of agriculture, in particular to the multi-purpose use of discrete irrigation irrigation systems for the application of mineral fertilizers, trace elements, quality improvers of irrigation water, herbicides and other soil pesticides.

 Widely known are methods for applying mineral fertilizers and other chemicals with irrigation water, which consist in the sequential preparation of mother liquors, dosing their required majesty in the flow of irrigation water, mixing with it and distributing over the irrigated area [1].

 A disadvantage of the known methods with respect to discrete irrigation systems is that additional energy sources are required (electric, hydraulic, mechanical, pneumatic), the features of discrete irrigation regimes are not taken into account, can hardly be realized with low-intensity application of chemicals (when adding 100 - 500 l of solutions chemicals per 1 ha for 5-6 days), the presence of qualified service personnel is required.

 There is a method of feeding plants with solutions of mineral fertilizers during sprinkling, which includes the selection of part of the water flow from the irrigation pipeline and directing it into a container with chemicals, which are metered into it and enrich irrigation water due to the pressure differential created in the pipeline [2, 3, 4].

 A disadvantage of the known method of fertilizing with irrigation water is that its application extends to pressure irrigation pipelines, provides for pressure loss in the main pipeline, the amount of fertilizer applied is problematic and uncontrolled over time, the process occurs at high flow rates of the irrigation water taken and for a relatively short the period of time does not allow to be used on systems with an irrigation water flow rate of 5 - 10 l / h.

 Known hydraulic feeder for applying liquid mineral fertilizers with irrigation water, including an open cylindrical tank, float siphon and screw clamp [5].

 This hydraulic feeder does not require additional energy sources, but does not provide a discrete mode of operation in an automated mode, complicates the dosing process of very small costs, does not ensure reliable operation of the entire complex.

 Closest to the proposed invention relates to a hydraulic feeder for sprinkling machines, including a fertilizer tank with internal walls, leading from the bottom to its inner cavity a supply pipe and a pipe for selecting the prepared solution from the cavity between the inner and outer walls [6].

 The disadvantages of the known method and device are that they do not take into account the features of the mode of operation of discrete irrigation systems, require autonomous and continuous supply of water, require energy sources for mixing with irrigation water, and do not solve the problem of reliable dosing of mother liquors with very small flow parameters.

 The problem to which the invention is directed, is to ensure the reliability of low-intensity application and uniform distribution of chemicals with irrigation water without involving additional energy sources.

 The essence of the invention lies in the fact that in the method of introducing chemicals with irrigation water on discrete irrigation systems, the cycles of accumulation and supply of irrigation water are combined with the preparation of a fixed volume of a solution of chemicals for irrigation in a graduated cylinder for an irrigation cycle. Moreover, their discrete dosing is carried out in the process of free overflow and re-mixing of this volume with the mother liquor in the drive. In the device for introducing chemicals with irrigation water on discrete irrigation systems, the tank for chemicals is made in the form of a closed volume with a measuring cylinder located in its upper part. The tank for chemicals is located below the irrigation water reservoir in which the siphon is located and is hydraulically connected to the reservoir in the area of the suction siphon nozzle. At the same time, the ratio of the total working volume of the graduated cylinder, concluded between the upper and lower levels of the irrigation water accumulator in the mode of its normal operation, and the volume of the connecting hose, hydraulically connecting the irrigation water accumulator and the tank for chemicals, to the working volume of the graduated cylinder , 1, and the ratio of the working volume of the graduated cylinder to the volume of the connecting hose is within 10.

 A method and device for introducing chemicals with irrigation water are presented in the drawing.

 A device for introducing chemicals with irrigation water on discrete irrigation systems includes an irrigation water accumulator 1, which is connected hydraulically to a tank 3 for chemicals using a connecting hose 2. In this case, the tank 3 includes a filter cup 4, a drain tap 5 and a cover 6 with a removable measuring cylinder 7. The irrigation water enters the accumulator 1 through a pipe 8 with a tap 9, and its subsequent discrete supply to the distribution 10 and, accordingly, irrigation 11 pipelines by siphon 12 The method of introducing chemicals with irrigation water on discrete irrigation systems and a device for its implementation is implemented as follows.

 By manipulating the taps 5 and 9, they stop the flow of irrigation water into the reservoir 1 and release the reservoir 3 from the “liquid” present in it, as well as remove possible slurry inclusions, the tap 5 is closed. The cover 6 is removed and the necessary (calculated) mass of nutrients or other agrochemicals is poured into the filter cup 4. At the same time, the possibility of filling the tank 3 with liquid fertilizers or uterine formulations of other chemicals approved for use is not ruled out. Agrochemicals can be of simple, binary, triple or more compositions, for example, fertilizers and microelements, fertilizers and chemical ameliorants, fertilizers and soil herbicides, fertilizers and soil pesticides of other significance.

 The capacity 3 filled with chemical means is closed with a lid 6, on which the measuring cylinder 7 is placed. The measuring cylinder 7 is selected from their existing set taking into account the volume of the dosed solution for the irrigation cycle.

 At the end of the preparatory operations, the valve 9 is opened, thereby filling the reservoir 1 with irrigation water flowing through the tube 8. When filling the reservoir 1, irrigation water flows through the connecting hose 2 into the tank 3, where it interacts with the chemical means in the filter cup 4. In the process of contact of water with chemical means, they dissolve, and the resulting mother liquor is displaced into the measuring cylinder 7. This process continues as the drive 1 is filled with water.

 When reaching the upper levels of water in accumulator 1 and cylinder 7, a siphon 12 is activated and accumulated water is pumped by it to distribution 10 and irrigation 11 pipelines. As the level of irrigation water in drive 1 decreases, the level of the solution of chemicals in the measuring cylinder 7 is monitored, i.e., the solution, due to free overflow-overflow, returns to tank 3. In tank 3, two solutions of different concentrations are mixed: located in tank 3 and returned from the measuring cylinder 7. The resulting mixture through the connecting hose 2 is forced into the reservoir 1. The receipt of solutions of chemicals in the reservoir 1 occurs in the area of the suction pipe siphon 12, which favors the quality mixing them with water and improves the uniform distribution of agrochemicals over the area.

 After the selection of the accumulated volume of water, the siphon 12 is diluted - the irrigation process stops. At the same time, the accumulation of the next volume of water and a portion of the solutions of chemical means is resumed until the siphon 12 is triggered accordingly - the process of discrete watering and the introduction of agrochemicals continues in an automated mode.

 The predictable performance of the device and the reliability of the calculated concentrations of the working solution (qualitative indicators of irrigation water enrichment) of agrochemicals over discrete irrigation cycles, as well as the uniformity of their distribution over the area are determined by the design parameters of the connecting hose 2 and the layout of the graduated cylinder 7. The essence of the problem lies in the alternate use of the connecting hose 2 for supplying water, providing the preparation of a portion of the solutions of chemicals and their removal into the drive irrigation th water 1 according to the laws of communicating vessels.

 It has been established that for an “ideal design variant” the volume of the graduated cylinder 7, which determines the rate of application of chemical means to the irrigation cycle and the duration of the device without recharging it, must completely enter (overflow, pump, dispense) into the water accumulated during the irrigation cycle. To achieve this case is almost problematic, which is associated with the inevitable preservation in the internal volume of the hose 2 of a certain amount (volume) of the mother liquor.

 In contrast to the “ideal variant”, in practice, such conditions can be created when the entire mother liquor in the graduated cylinder 7 only circulates in the connecting hose 2 and its connecting fittings. Moreover, it never enters irrigation water, i.e. drive 1. Examples of such a solution are illustrated by design options when the volume of the connecting hose 2 will be equal to or greater than the volume of the graduated cylinder 7.

 The specific values of the ratios of these volumes (connecting line and graduated cylinder) to each other ultimately characterize the accuracy of dosing (%) of the mother liquor of agrochemicals into the flow of irrigation water.

V₁ = V_п.ap+V_с.ш≅ V_c.ш,
где Т_доз - точность дозирования, %;
V₁ - объем соединительной линии, мл (дм³);
V₂ - объем мерного цилиндра, мл (дм³);
V_п.ар - объем присоединительной арматуры, мл (дм³);
V_с.ш - объем соединительного шланга, мл (дм³).Analytically, this is expressed as follows

V = V ₁ + V _{p.ap northern latitude} ≅ V _c.sh,
where T _doses - dosing accuracy,%;
V ₁ - the volume of the connecting line, ml (dm ³ );
V ₂ is the volume of the graduated cylinder, ml (dm ³ );
V _{P. ar} - volume of connecting fittings, ml (dm ³ );
V _S. - the volume of the connecting hose, ml (dm ³ ).

Example: It is required to determine the accuracy of the dosing of the hydraulic feeder or the degree to which the mother liquor enters the irrigation water from the measuring cylinder with operating parameters: V _p.ar = 1.5 ml; V _S. n = 8.5 ml;
V ₂ = 100 ml.

Таким образом, точность дозирования гидроподкормщика оценивается величиной в 10%, т.е. за каждый цикл полива из мерного цилиндра в поливной поток не попадает 10% его объема.Decision:

Thus, the dosing accuracy of the hydraulic feeder is estimated at 10%, i.e. for each irrigation cycle from the measuring cylinder, 10% of its volume does not fall into the irrigation flow.

In view of the foregoing, the dosing elements of the hydrofeed design must be characterized by the following relationships:
- the total volume of the graduated cylinder (V ₂ ) and the connecting line (V ₁ ) to the working volume of the graduated cylinder. The working volume of the graduated cylinder is proportional to the column of liquid (water) between its upper and lower levels of the irrigation water accumulator during normal operation of the structure, which is determined by the principle of the device according to the laws of communicating vessels. The volume of the cylinder is determined by the readings of its calibration divisions or by multiplying the known cross-sectional area by the height of the actuation column of the mother liquor or irrigation water in the drive;
- the working volume of the graduated cylinder to the volume of the connecting line (connecting hose).

 The numerical values of these indicators are presented in table. 1 and 2. They were installed according to the set level of dosing accuracy (%) of solutions of chemicals for irrigation water storage 1 according to the results of analytical calculations and design developments.

 Verification of the obtained analytical values in laboratory studies on a prototype device showed that the variation in theoretical and laboratory comparative results does not exceed 19%.

 Table analysis 1 shows that as the metering accuracy decreases (5, 10, 15, 25), the ratio of the volume of the graduated cylinder and the connecting metering line to the volume of dosing of the mother liquor per irrigation cycle in the range of 1.05-1.25 increases. At the same time, with an optimal indicator of dosing accuracy of 10%, the ratio is 1.1.

 The optimal indicator of 10% is established (selected) in accordance with the existing initial (agrotechnical) requirements for hydroforming equipment, in accordance with established practice, technical and technical feasibility, the reality of the design, etc.

 From the data of table 2 it is seen that with a dosing accuracy of 5-25%, the ratio of the volume of the dosed solution to the volume of the connecting hose (connecting line) is in the range of 20, .. 4.

 Thus, with a dosing accuracy of ± 10%, as the most acceptable indicator for hydroforming devices, the ratio of the sum of the volumes of the graduated cylinder and the connecting dosing line to the dosing volume of the cylinder should not exceed 1.1, and the ratio of the volume of the dosed solution with the measuring cylinder to the volume of the dosing line (connecting hose) must be at least 10.

 The considered ways to solve the problem of introducing chemicals with irrigation water are carried out without additional energy sources, they monitor the mode of operation of discrete irrigation systems, allow for their multi-purpose use in low-intensity mode, taking into account the stages of plant organogenesis, do not reduce the operational parameters of irrigation systems, and allow accurate dosage of low costs of agro-mixtures and evenly distribute them over the area.

Sources of information
1. Abramov A.F., Ivashkin V.I. The introduction of chemicals with irrigation water. M., Rosagropromizdat. 1998-88 p.

 2. Copyright certificate of the USSR 82032, AC1S45v 23/04.

 3. Soloviev, E. E. Fertilizing plants during sprinkling. Collective farm production. - 1959 - 12. - P.32.

 4. Sandigursky D. M., Bezrodnov N. A. Mechanization of irrigation work. M., "Spike", 1975.- S. 108.

 5. Kozin M.A. How to fertilize crops of mineral fertilizers during irrigation. Sat scientific works of YUZHNIIGiM.-Novocherkassk, 1958, Issue 5 .- P.179-184.

 6. Copyright certificate of the USSR 1017201, AO1023 / 04, 1983, BI 18 (prototype).

Claims (3)

 1. The method of introducing chemicals with irrigation water on discrete irrigation systems, including the enrichment of irrigation water with chemicals and the distribution of the mixture in the irrigated area, characterized in that the accumulation and supply of irrigation water are combined with the preparation of a fixed volume of the solution of chemicals for the chemicalization per cycle irrigation and their discrete dosing, which is carried out with free overflow and re-mixing this volume with the mother liquor in the drive.  2. A device for introducing chemicals with irrigation water on discrete irrigation systems, containing a drive for irrigation water, a container for chemicals, a connecting hose and pipelines, characterized in that the container for chemicals is made in the form of a closed volume with a measured a cylinder, located below the irrigation water reservoir, in which the siphon is located, and is connected hydraulically to the accumulator in the area of the siphon suction pipe.  3. The device according to p. 2, characterized in that the ratio of the total working volume of the graduated cylinder, concluded between the upper and lower levels of the irrigation water accumulator in the mode of its normal operation, and the volume of its connecting hose, hydraulically connecting the irrigation water accumulator and a container for chemicals , to the working volume of the graduated cylinder does not exceed 1.1, and the ratio of the working volume of the graduated cylinder to the volume of the connecting hose is 10.

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