RU2410869C1 - System of drip irrigation with module of irrigation water activation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: system includes hydraulically connected water source, pump station, filter, manometres, stop valves, manifold pipeline, network of distributor and watering pipelines, droppers, water-air settling tank with settling chamber to collect suspended matter, module of electric activation of irrigation water. Module of electric activation of irrigation water consists of DC source and installation of electric activation of water. Installation of electric activation of water is electrically connected to DC source and has a potential switch. Installation has a supply pipeline with inner helical guide surface and pipeline for water drain with positive and negative potential. Pipeline with inner helical guiding surface has a left-sided orientation. Pipeline for water drain with positive and negative potential has a helical guide at inner surface with left-sided orientation and is connected to manifold pipeline. Reservoir for preparation of nutrient solution is hydraulically connected into network in parallel on manifold pipeline. Installation for electric activation of water includes coaxially arranged electrodes with the possibility to change positive and negative potential, semipermeable shell between them. Semipermeable shell is made of microporous plastic. One of electrodes performing functions of body has a shape of hollow cylinder and is made of stainless steel or titanium. Inside hollow cylinder there is an electrode installed, having shape of helical auger with counterclockwise winding and separated from its surface by semipermeable shell. Electrode is made of stainless steel or titanium, to supply positive and negative potential to electrodes, there are current-conducting buses provided. Body of water installation has connecting threaded tips. Supply and drain pipelines are connected to connecting threaded tips. Supply and drain pipelines are made of dielectric aggressive-resistant polyethylene. Body of installation for electric activation of water is closed with dielectric jacket from the outside.

EFFECT: such a design will make it possible to improve crop capacity of ecologically pure agricultural produce and its quality, to exterminate pathogenic microbes and agricultural pests.

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Description

The invention relates to agriculture, in particular to drip irrigation systems.

A known drip irrigation system, including a water source, a settling basin, a pumping station and an irrigation network with droppers, the system is equipped with linearly-extended tubular filters laid in the ground along the shore of the water source and buried under the groundwater level, and the tubular filters are in communication with the pool sump, which is closed (SU copyright certificate No. 1551285).

The disadvantages of the described system include the low operational reliability of tubular filters, clogging droppers and the inability to change the biological activity, vitality and energy of irrigation water.

A known drip irrigation system, including a water supply source, a supply network, a distribution network and humidifiers with injectors, is provided with hydraulic resistance at the inlet of each injector, and a hole is made underneath it in the wall of the injector, and each injector is equipped with a water seal located below the hole , the injectors are connected to the humidifiers through tubular inserts of various lengths, and the hydraulic resistance is made in the form of a float-operated water level regulator (SU copyright certificate No. 545305).

The disadvantages of the presented system include low operational reliability, clogging of droppers with salts in irrigation water and the inability to change the biological activity, vitality and energy of irrigation water.

There is also a known method of soil reclamation, including the supply of irrigation water through a system of irrigation canals and its introduction into the soil together with chemical means, the installation of electrodes of one polarity in the flow of irrigation water, and electrodes of another polarity in the soil and the passage of direct electric current between them, while electrodes of one polarity are installed in the irrigation channel from the supply side of irrigation water, and electrodes of the other polarity are outside the reclaimed areas in the groundwater discharge zone, and activated a water mark and the redox potential are removed from the channel and is fed by sprinkling on the soil to bring its pH to a level for optimum crop (SU inventor's certificate №1395213).

The disadvantages of the analyzed method include the inability to obtain a given redox potential in an open water source and very high energy costs.

A known drip irrigation system, including a pool-sump water source, a pumping station, a filter with pressure gauges, an irrigation network and droppers, with a large range of irrigation norms, a group of droppers is hydraulically connected through connecting pipes with a water outlet, each of which is installed along the irrigation pipe of the irrigation network, while the outlet has the ability to rotate around the axis of symmetry of displacement along it with a hydraulic ram with a control rod, located in the cavity of the housing through the sleeve, and in its cavity between the bottom of the casing and the end of the hydroshaft there is an elastic element on the control rod, its free end is equipped with an eccentric and a control lever, the casing cover provided with a nipple is connected to the irrigation pipe with the irrigation pipe, and the casing is arranged in stages with angular displacement nipples, the axial channels of which are aligned with the radially oriented channels of the sleeve and the spool, the hydroshock with the tiered radially oriented channels made in it and connected through the axial and parallel channels made with the receiving cavity of the spool (RU patent No. 22179760).

The disadvantages of this drip irrigation system include the complexity of the design, low operational reliability and the inability to change the biological activity, vitality and energy of irrigation water.

A known system for preparing water and feeding the nutrient mixture into the soil under drip irrigation, containing a container for preparing a nutrient solution, a filter, a nutrient filler and a water inlet, in which it is equipped with high-pressure hydrocyclones, diaphragm electrolyzers, a communication network, shut-off elements in the form of valves and means process control in the form of three-way taps sequentially mounted in the hydraulic network, the filter for water purification is made in the form of horizontal but an installed tank filled with neutral filtration material in the form of layer-by-layer dolomite gravel laid in the upper horizon with a grain size of 5-25 mm with a layer of 150-300 mm and in the lower horizon of quartz sand with a grain size of 1-5 mm with a layer of 300-600 mm, the volumes of the tank and filter material are correlated as 1: (0.3 ... 0.6), and slotted pipelines for supplying and discharging water are mounted in the cavity of the tank above and below the filtering material, and the surfaces of the lower slotted pipelines are covered with a non-woven waterproof material, up the drawn-in upper filter slit pipeline is hydraulically connected by a pipeline to a high-pressure hydrocyclone for water purification, supplied under working pressure through an inlet pipe through a three-way valve from the pump station to the hydrocyclone cavity, the hydrocyclone is equipped with a sedimentation chamber for collecting pollution products, a valve for their discharge into the irrigation network by the inlet and in its cavity by a mesh screen in the form of a hollow truncated cone directed by a wide base towards the pipeline connecting the hydrocyclone with the upper slot filter pipeline, parts of this pipeline are connected by a valve and parallel to it with a four-way valve connected by sleeves to a container for preparing a nutrient solution, and the slotted pipes described above, laid under the filter material in the filter cavity, are connected through a communication network and a three-way valve to the main pipeline for supply of purified water to the droppers through the main pipeline of the drip irrigation system, in addition, the mentioned communication network m valves and pressure hydrocyclones are hydraulically connected in parallel with the chambers of the diaphragm electrolysers, the cathode cavity of the first of them is hydraulically connected via a three-way tap to the main pipe of the drip irrigation system, and the anode cavity is connected to the inlet irrigation network, while the chamber of the second electrolyzer with the main pipeline and the network for irrigation with inlet are connected in the reverse order, in addition, three-way valves of a high-pressure hydrocyclone, filter and electrolyzers with an inlet pipe and a ma the main pipeline is connected in series by the bends of equal bore (RU patent No. 22179761).

The disadvantages of the system include design complexity, limited functionality and the inability to supply water of a given potential with increased biological activity and vitality to the irrigation network of the drip irrigation system.

A known system for preparing and feeding the nutrient mixture into the soil under drip irrigation, including hydraulically connected water source, pump station, tank for preparing the nutrient solution, filter, manometers, shutoff valves, main pipeline, distribution and irrigation piping network, individual and / or group droppers, the filter for water purification is made in three stages: the first stage for removing mineral debris, vegetable impurities and suspensions is made in the form of a hydrocyclone equipped with The second stage of fine cleaning is presented in the form of a self-cleaning mesh filter concentrically installed in its cavity and a sedimentation chamber for collecting pollution products, in the form of a sealed container horizontally installed with filtration material, an upper slotted and lower drainage pipes of the water distribution system for transferring water from the hydrocyclone and discharging into the third stage for final cleaning, presented in the form of a horizontally mounted slotted filter, a container for the preparation of nutrient of the solution is hydraulically connected in parallel to the network between the first and second stages of the filter, while the latter is equipped with the ability to remove the clogging from the horizontally installed tank, and the counter for the flow of purified water by backwashing is mounted behind the slot filter of the third stage of irrigation water treatment. (RU patent for the invention No. 2230451).

The disadvantages of the system include the inability to increase the energy, vitality and biological activity of irrigation water, the complexity of the design, the possibility of suspended particles entering the irrigation pipes and the clogging of droppers due to the lack of a settling tank, as well as the clogging of trunk, distribution, irrigation pipelines and droppers with phytoplankton.

This system is accepted by us as the closest analogue.

The essence of the claimed invention is as follows.

The problem to which the invention is directed is to increase operational reliability and provide the ability to change the biological activity of the life force and energy of irrigation water.

EFFECT: destruction of pathogenic microbes and agricultural products. pests, as well as increasing the yield of ecological clean agricultural products and their quality.

The specified technical result is achieved by the fact that the known drip irrigation system with an activation module of irrigation water, including hydraulically connected water source, pump station, filter, pressure gauges, valves, main pipeline, distribution and irrigation piping network, droppers, according to the invention, is equipped with a water-air tank sedimentation tank with sedimentation chamber for collecting suspended particles, irrigation water electroactivation module, consisting of a direct current source and installation for I have electroactivation of water electrically connected to a direct current source and having a potential switch, while the installation has a supply pipe with an internal screw guide surface having a left-side orientation and a pipe for drainage of water with positive and negative potentials having a screw guide with a left-side direction on the inner surface and connected to the main pipeline, on which a container for preparing and a nutrient solution, while the installation for electroactivation of water includes coaxially arranged electrodes with the possibility of changing the positive and negative potentials, a semi-permeable shell between them made of microporous plastic, one of the electrodes acting as a body, has the form of a hollow cylinder and is made of stainless steel or titanium, inside a hollow cylinder, separated from its surface by a semipermeable shell, an electrode is installed, having the form of a screw screw with a winding against clockwise, made of stainless steel or titanium, conductive busbars are provided for supplying positive and negative potentials to the electrodes, the water installation housing has connecting threaded tips to which inlet and outlet pipelines made of aggressively stable dielectric polyethylene are connected, the installation case for water electroactivation closed outside with a dielectric casing.

The invention is illustrated by drawings.

Figure 1 presents a diagram of a drip irrigation system.

In Fig.2 is a cross section of the installation for electroactivation of water.

Information confirming the possibility of implementing the claimed invention are as follows.

The drip irrigation system and with the electroactivation module of irrigation water includes a water source 1, in which a water intake device 2 is installed. It is equipped with trash and fish protection facilities. The intake device 2 is connected by a suction pipe having a vacuum gauge 3 to the pump 4. The pump 4 is designed to cover the flow of water for the entire irrigation system. The pump 4 has a pressure gauge 5 mounted on the pressure pipe 6, which is connected to a hydrocyclone 7 equipped with a strainer 8. The hydrocyclone 7 is connected by a pipe 9 to a fine filter 10, made in the form of a container filled with filter material. The fine filter 10 is connected by means of a pipe 11 to a water-air tank 12 equipped with a pressure gauge 13. The internal cavity of the water-air tank 12 is connected by a supply pipe 14 to the installation 15 for water electroactivation. Installation 15 for electroactivation of water is connected to a direct current source 16, which has a potential switch 17. A container 21 for preparing a nutrient solution, which has a shut-off valve 22, is hydraulically connected to the pipeline 19 for draining water with a given potential using shut-off valves 19, 20, and a pressure gauge 23 is provided for monitoring pressure in the main pipeline. To supply water to the system Distribution pipelines 24 and irrigation pipelines with droppers 25 are provided for drip irrigation. The hydrocyclone 7 is equipped with a sediment chamber 26 and shutoff valves 27.

The water-air tank-settler 12 has in the lower part of the sedimentary chamber 28 with shutoff valves 29 to remove sediment. The supply pipe 14 is connected to the installation 15 for electroactivation of water by means of a thread 30. In the internal cavity of the installation 15 for electroactivation of water, an electrode 31 is installed in the form of a screw screw with a counterclockwise winding and made of stainless steel or titanium. The screw screw 31 is separated from the internal cavity of the installation 15 for electroactivation of water by a semi-permeable shell 32 made of dielectric microporous plastic. The diameter of the turns of the screw 33 is equal to the inner diameter of the semi-permeable shell 32. The supply of electric potential (positive or negative) to the housing 15 is made using the bus 34, and to the electrode 31 through the turns 33 using the bus 35 and the conductor 36 isolated from the housing 15 by a dielectric sleeve 37. The pipe 19 for draining water is connected to the housing 15 using a thread 38. The inlet pipe 14 and the pipe 15 for draining water are made of a dielectric polyolefin modified with increased radiation characteristics, Do aggressively resistant polyethylene. From the outer surface, the housing 15 is closed by a dielectric casing 39.

The drip irrigation system with the activation module of irrigation water works as follows.

Water is taken from a water source 1 by a pumping station 4, equipped with a water intake device 2 with a trash guard with a fish protection head and a vacuum gauge 3 at a positive suction height. The necessary pressure in the pipeline 6 is controlled by a pressure gauge 5. Water with a given pressure is supplied to a hydrocyclone 7 equipped with a strainer 8. The hydrocyclone acts as a coarse filter and is equipped with sediment chamber 26 and shutoff valves 27, through which sediment is removed as it accumulates. From the hydrocyclone 7, through the pipeline 9, pre-purified water is supplied to the fine filter 10, where fine impurities and suspensions are removed from the water. From the filter 10, the purified water is supplied to the air-air tank 12, in which suspensions are deposited in the chamber 28 and removed through the shut-off valves 29. At the same time, the water-air tank 12 settles a predetermined pressure in the piping system, which is controlled by a pressure gauge 13.

From the air-water tank-settler 12 through the inlet pipe 14, water is supplied to the installation 15 for electroactivation of water. When water moves in the pipeline 14, the flow interacts with the internal helical guide surface and acquires a counterclockwise rotation. When the flow rotates counterclockwise, the water structure changes, its energy and vitality increase.

The rotating stream enters the installation 15 for the electroactivation of water. Moreover, if a positive potential is connected to the bus 34, and a negative potential is connected to the bus 35, the water flow flowing in the inner cavity of the electroactivator 15 interacts with the screw turns 33, the flow rotation speed increases and the negative potential from the screw turns 33 is transferred to the water flow. With this position of the potential switch 17, catholyte will flow in the pipe 19 for water drainage. Negatively charged water with an increased redox negative potential and an increased pH value of the catholyte at the same time has increased biological activity and, when interacting with plants, increases the yield and quality of agricultural products. The increase in the biological activity of irrigation water is additionally provided by introducing into the irrigation water a nutrient solution of fertilizers from the tank 21 for preparing the nutrient solution. To introduce the nutrient solution into the activated water, the shut-off elements 19, 22 are opened and the shut-off element 20 is closed. The flow of activated water is saturated with the nutrient solution, fed into the distribution pipe 24 and irrigation pipes with droppers 25. The pressure in the main pipe is controlled by a manometer 23. If the negative potential will be supplied to the bus 34, and the positive potential to the bus 35, the flow of water flowing in the internal cavity of the electroactivator 15 interacts with the turns of the screw 33, with the rotation rate of the flow increases and the positive potential from the turns of the screw 33 is transferred to the water flow. With this position of the potential switch 17, anolyte — positively charged water with a high redox potential and a lowered pH value — will flow into the pipe 19 for water drainage. Moreover, anolyte has increased biological activity and, when exposed to soil and plants, it destroys pathogenic microbes and pests, which creates favorable conditions for the growth and development of plants and increases the yield of environmentally friendly agricultural products.

The operating mode of the drip irrigation system with the activation module of irrigation water is selected depending on the cultivated crop and soil type. The following sequence is observed:

- after sowing or planting, anolyte is irrigated with redox potential (ORP) + 500 ... + 700 MW and with a pH of 3.0 ... 5.0 units. pH

- the entire vegetation period is irrigated with catholyte with ORP -700 ... -900 mV and a pH of 7.5 - 11.0 units. pH

Watering with anolyte is carried out during vegetation only in the case of the appearance of pathogenic microbes and pests.

Claims (1)

A drip irrigation system with an irrigation water activation module, including hydraulically connected water source, pump station, filter, manometers, shutoff valves, main pipeline, distribution and irrigation piping network, droppers, characterized in that it is equipped with a water-air settling tank with a sedimentation chamber for collection suspended particles, irrigation water electroactivation module, consisting of a direct current source and a device for electroactivation of water electrically connected to the source direct current and having a potential switch, while the installation has a supply pipe with an internal screw guide surface having a left-side orientation, and a pipe for water drainage with positive and negative potential, having a screw guide with a left-side direction and connected to the main pipeline on the inner surface, which is hydraulically connected in parallel to the network capacity for the preparation of nutrient solution, while the installation for electroactive The water content includes coaxially arranged electrodes with the possibility of changing positive and negative potentials, a semi-permeable shell between them made of microporous plastic, one of the electrodes, which acts as a body, has the shape of a hollow cylinder and is made of stainless steel or titanium, inside the hollow cylinder, separated from its surface is a semi-permeable shell, an electrode is installed, having the form of a screw screw with a counterclockwise winding, made of stainless steel or titanium, To supply the positive and negative potential to the electrodes provided busbars, water installation housing has a threaded connecting lugs, which are connected to inlet and outlet pipes, made of dielectric aggressively resistant polyethylene installation housing for electroactivation closed water outside the dielectric housing.

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