RU2717035C1 - Plant life electrostimulation device - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, plant growing and can be used for plant vital activity stimulation. Device represents at least two polymer flexible electrodes 1, 2, introduced into soil 4. Polymer flexible electrodes 1, 2 consist of each of metal core and main electroconductive polymer shell with inclusions – plant growth stimulants. One leads of metal cores of electrodes 1, 2 are connected to heteropolar outputs of controlled direct current source 3, and other leads of metal cores of electrodes 1, 2 are sealed. Plant growth stimulators used are organic and / or inorganic compounds containing potassium and / or nitrogen and / or calcium and / or phosphorus. A variant of the device is the content in the polymer flexible electrode of an additional electroconductive polymer shell from electroconductive polymer or graphite cloth. Between the main polymer shell and the additional polymer shell there is an electroconductive carbon and / or shungite fill which contains plant growth stimulants.

EFFECT: device is easy to implement and maintain.

4 cl, 3 dwg

Description

The invention relates to the field of agriculture, crop production and can be used to stimulate plant life.

The influence of electrical stimulation on the vital activity of plants has been confirmed by many studies both in our country and abroad.

There are various methods of electrical stimulation of plant life in agriculture, in everyday life, in private areas, in greenhouses, for indoor plants.

One of the analogs is a device for pre-planting processing of potato tubers in an electromagnetic field, including a loading tank and a receiving hopper, a conveyor with flexible rubberized electrodes installed above the load-carrying tape to create an electric field, a rotating electromagnetic field source made in the form of a three-phase electric motor stator with its body with a U-shaped dielectric plate, while the load-carrying belt of the conveyor is placed in the cavity of the three-phase stator the electric motor, and the electrodes to create an electric field are fixed on the branches of the U-shaped dielectric plate, which are located respectively above the inlet in the direction of the load-carrying conveyor belt and the outlet openings of the stator housing of the three-phase electric motor, and the negative electrode is mounted above its input hole, and positive - above the outlet, while both electrodes are fixed with the possibility of providing contact with the processed potato tubers - RU 2088066 C1, 1995

The disadvantages of the known device are its narrow purpose - pre-planting processing of potato tubers and the absence of further influence on its growth after planting, and in addition, the use of equipment in the form of a three-phase electric motor with a U-shaped dielectric plate mounted on its body.

The closest analogue is a method of electrical stimulation of plant life, including the introduction of metals into the soil to a depth convenient for further processing, with a certain interval and in appropriate proportions. Metal particles are introduced in the form of powder, rods, plates of various shapes and configurations made of metals of various types and their alloys, differing in their relation to hydrogen in the electrochemical series of metal stresses, alternating the introduction of metal particles of one type of metal with the introduction of metal particles of another type, taking into account the composition of the soil and the type of plant, while the value of the emerging currents will be within the parameters of the electric current, optimal for electrical stimulation of plants - RU 2261588 C2, 2005

The known method does not use external power sources, affects the growth of plants after planting, metal particles in the form of powder, rods, plates of various shapes and configurations are necessary for its use.

However, the regulation of the process of electrical stimulation in the known method is complex and time-consuming, because the value of the arising currents should be within the limits of the parameters of the electric current, optimal for electrical stimulation of plants.

This requires alternating the introduction of metal particles of one type of metal with the introduction of metal particles of another type, taking into account the composition of the soil, the type of plant, and the relation to hydrogen in the electrochemical series of stresses of metals of various types and their alloys.

In addition, the optimal electrical stimulation of plants is created when copper, silver, aluminum, magnesium, zinc, iron and their alloys are added to the soil solution, which increases the cost of the known method, requiring the constant availability of the specified range of metals in various forms in the warehouse: small particles, small metal plates of various shapes and configurations, as due to oxidation, they should be replaced periodically.

In this regard, the technical task of the invention is the creation of relatively simple in the process of regulating electrical stimulation of plant growth after planting the device.

This problem was solved by a device for electrical stimulation of plant life, containing an object introduced into the soil with a metal content to a depth convenient for further processing, the object being at least two polymer flexible electrodes with various inclusions - plant growth stimulators, each of the electrodes consists of a metal core and the main electrically conductive polymer sheath, the first leads of the metal conductors of the electrodes are connected to bipolar outputs of an adjustable constant current source, and the second leads of the metal conductors of the electrodes are sealed or closed to their first leads through the corresponding conductor with a minimum electrical resistivity.

Special cases of using the invention are proposed, which are as follows:

- plant growth stimulants are contained in the main electrically conductive polymer shell;

- as plant growth stimulants, organic and / or inorganic compounds containing potassium and / or nitrogen and / or calcium and / or phosphorus can be used;

- one or more polymer flexible electrodes contains an additional electrically conductive polymer shell of an electrically conductive polymer or carbon graphite fabric, between the main polymer shell and an additional electrically conductive carbon and / or schungite backfill, which contains plant growth stimulants.

In FIG. 1 shows the location of two polymer flexible electrodes in the soil; in FIG. 2 - electrode design containing plant growth stimulants in the main electroconductive polymer shell of the electrode (longitudinal and transverse section); in FIG. 3 is an embodiment of an electrode design containing plant growth stimulants in an electrically conductive carbon and / or schungite backfill placed between the main polymer shell and the additional (longitudinal and transverse section).

The polymer flexible electrode 1 is connected to the (+) regulated source of direct current 3 by the output of the metal core; the polymer flexible electrode 2 is connected to the (-) regulated source of direct current 3 by the output of the metal core. Other leads of metal conductors of electrodes 1, 2 are sealed.

Placed in the soil 4 at a depth convenient for further processing of plants 5, the electrodes 1, 2 form an electric circuit through the soil 4 (Fig. 1).

When the number of electrodes is more than two, they are connected in parallel to a direct current source 3, placing, if possible, coaxially with respect to each other and placing the root system of plants 5 or their seeds between electrodes 1, 2.

Each electrode 1 and 2 consists of a metal core 6 and a main electrically conductive polymer shell 7 (Fig. 2) with various inclusions - plant growth stimulators 8, which can be used organic and / or inorganic compounds containing potassium, and / or nitrogen and / or calcium and / or phosphorus.

As the polymer shell 7 can be used polyethylene, polypropylene, rubber, thermoplastic elastomer, elastic resin, or combinations thereof.

The polymer shell 7 is electrically conductive due to the content in it of a carbon filler, which is used as carbon black, graphite, shungite, or combinations thereof.

In the case of metal cores 6 of electrodes 1, 2 made of steel, the output of growth stimulators 8 by the electrically conductive polymer shell 7 will be uneven due to the relatively high resistance of the steel core 6, therefore, the first and second terminals of the electrodes 1, 2 are closed through the corresponding conductors (not shown ) with a minimum electrical resistivity. In this case, any conductors with conductors made of copper, silver or their alloys, or metals with low electrical resistivity can be used.

The difference in the design variant of the electrodes 1, 2 used in the device and shown in FIG. 3, consists in the presence of an additional electrically conductive polymer shell 9 of electrically conductive polymer or carbon graphite fabric. In this embodiment, plant growth stimulators 8 are contained in an electrically conductive carbon and / or shungite backfill 10, between the main polymer shell 7 and the additional shell 9.

The advantage of this design is the increased rate of transition of stimulators 8 of plant growth 5 to the soil 4 due to the additional polymer shell 9, which can be made of moisture-permeable carbon-graphite fabric.

The operation of the device is as follows.

The main electrically conductive polymer shell 7 during the production of electrodes 1, 2 is filled with the necessary stimulators 8 of plant growth 5, which are, as a rule, universal for application to soils with various parameters. Contribute to potassium, nitrogen, calcium, phosphorus or a mixture thereof.

Finished electrodes 1, 2 are placed in the soil 4 to a depth convenient for further processing of plants 5 or their seeds.

The best option for the location of the electrodes 1, 2 is their alignment with respect to each other and the location of the root system of plants 5 or their seeds in the center between the electrodes 1, 2.

The findings of the metal cores 6 of the first and second electrodes 1, 2 are connected to a source of 3 direct current.

When you turn on the source 3 of direct current between the electrodes 1, 2 creates a closed electric field that provides electrical stimulation of plant growth 5.

By adjusting the current source 3, select the optimal stimulation currents for the plant, stimulating the processes of plant metabolism. In the process of further work of electrodes 1, 2, the main polymer shell 7 is destroyed and nutrient mineral substances 4 enter the soil, stimulating further growth and development of plants 5.

By adjusting the current of source 3, the optimal value of the electric stimulation current is selected for various plant varieties and soil composition.

Weak direct currents passing in the zone of plant roots 5 have a significant stimulating effect: the growth of stems in this case increases by 5-30%. Electrical stimulation can be periodic: under favorable weather conditions and the outwardly obvious rapid growth of plants, electrodes 1, 2 can be disconnected from source 3, reconnecting it when the conditions change to unfavorable, inhibiting the development of plants 5.

It should be noted that the specified regulation of electrical stimulation using this device is not limited to connecting, regulating and disconnecting the electrodes 1, 2 from source 3. Regulation of electrical stimulation with a connected source 3 is possible by changing the configuration of polymer flexible electrodes 1, 2 and, accordingly, organizing a given geometry of the electrical fields.

In this case, an increase in the field strength inside the enclosed space occurs, thereby enhancing the effect on the plants 5 inside.

Directional regulation of plant growth is also possible by changing the polarity of one electrode relative to the second. In this case, the directional (predetermined) yield of nutrients (fertilizers) that stimulate the growth of plants 5 from the polymer shell 7 of the electrodes 1, 2 begins to prevail.

The advantage of the design with the content of plant growth stimulators 8 in the electrically conductive carbon and / or schungite backfill 10 is that an additional polymer shell 9 made of moisture-permeable carbon-graphite fabric accelerates the rate of transition of plant growth stimulants 8 to soil 4 due to faster dissolution plant growth stimulators 8 in soil electrolyte 9 (soil moisture).

The use of this device will increase crop yields, frost and drought tolerance of plants. The device is efficient in terms of energy consumption, safety and ecology.

The device can be used for land plots of various sizes: both for large sown areas, and for greenhouses and summer cottages. It is easy to implement and maintain.

Claims (4)

1. The device of electrical stimulation of plant life, containing an object introduced into the soil with a metal content to a depth, characterized in that the object is at least two polymer flexible electrodes with inclusions - plant growth stimulators, each of the electrodes consists of a metal core and a main electrically conductive polymer shell , the first leads of the metal conductors of the electrodes are connected to bipolar outputs of an adjustable constant current source, and the second leads of the metal conductors of the electrodes are rmetizirovany or closed at their respective first terminals through the conductor with a minimum electrical resistance. 2. The device according to claim 1, characterized in that the plant growth stimulants are contained in the main electrically conductive polymer shell. 3. The device according to claim 1, characterized in that organic and / or inorganic compounds containing potassium and / or nitrogen and / or calcium and / or phosphorus are used as plant growth stimulants. 4. The device according to claim 1, characterized in that one or more polymer flexible electrodes contain an additional electrically conductive polymer shell of an electrically conductive polymer or carbon graphite fabric, between the main polymer shell and an additional electrically conductive carbon and / or shungite backfill, which contains growth stimulants plants.

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