RU2591969C1 - Method of preplanting treatment of sowing material and device therefor - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: seed grain is processed in low-frequency electromagnetic field with frequency of 6-19 Hz. Electromagnetic radiation power is controlled and individually adjusted for each section. Device for preplanting treatment of sowing material includes master generator, four low-frequency signal generation channels, thereof inputs are connected to output of master generator, and outputs to circuits for monitoring and control of radiation power. Electromagnetic wave radiation source consists of four inductance coils. Each inductance coil is connected to output of corresponding circuit for monitoring and control of radiation power. Connection of coils and structural design allows posting on distance up to 40 m from each other. Circuits for monitoring and control of radiation power are provided with led displays.

EFFECT: raised efficiency of seed grain processing in order to improve its germination rate, accelerate ripening, and increase yields.

11 cl, 1 dwg

Description

The invention relates to agriculture, as well as forestry, and in particular to means for processing seed to accelerate its ripening and increase productivity.

To improve the quality of seeds, the use of electromagnetic radiation of various spectra and ranges for these purposes is widespread.

Many scientific centers in the world are engaged in the problem of increasing the yield of cultivated crops; a search is underway for the least costly way to effectively increase productivity.

It is known to carry out the processing of seed using short pulses of high frequency pulsed electromagnetic signal (Patent RU 2038742, A01G 7/04, published 09.07.1995, Patent RU 2083070, A01C 3070, published 10.07.1997). However, the creation of these technical means is technologically difficult. In addition, the specified requirements are high requirements of stability and noise immunity.

Therefore, it seems more promising to process the seed with a low-frequency electromagnetic field.

The closest analogue of the proposed solutions is a method and device for processing seed, where the method consists in exposing the seed to a low-frequency electromagnetic field with a frequency of up to 19 Hz and using an electromagnetic radiation generator with a frequency of up to 19 Hz (mainly from 8 to 19 Hz ); the device comprises a master oscillator connected to a direct current source and an electromagnetic wave radiation source (Patent RU 2078490, А01С 1/00, published on 05/10/1997). However, the use of these technical means is not effective enough, because their functionality is limited, since it is intended to use such a method and device for processing only one section of seed, in addition, there is no possibility of continuous instrument control of the set parameters during the entire processing cycle in each individual section processing and there is no possibility of increasing the efficiency of processing of seed by changing the value of ma gnitnoy induction.

It has been experimentally established that seed germination increases when the seed is processed with a low-frequency electromagnetic signal, in particular a pulsating electromagnetic field with a frequency in the range from 6 to 19 Hz with an increasing value of the magnetic field induction. Such treatment leads to the activation of gibberellins when the seeds exit the dormant state and stimulates the growth and other processes of plant development.

The technical task of this invention is to expand the functionality of these technical means and increase the efficiency of processing seed, namely the possibility of simultaneous processing of several distant from each other (up to 40 meters) areas of storage of seed with a change in the magnitude of the magnetic induction and continuous instrument control of the presence of specified parameters in during the entire processing cycle at each individual seed storage site.

The technical result, the development of this invention is aimed at, is to increase the quality and processing efficiency of the seed to improve its seed germination and germination energy, accelerate ripening and increase yield.

The technical result is achieved due to the fact that a method of pre-sowing treatment of seed has been developed, which consists in the fact that the seed is exposed to a low-frequency electromagnetic field in the range from 6 to 19 Hz. Moreover, the processing process is carried out sequentially in three stages, and the magnitude of the magnetic field induction at each of the subsequent stages mentioned is greater than in the previous one.

In the particular case of using the claimed method:

The range of magnetic induction values used is 0.4-2.0 mT.

The duration of the mentioned processing steps is from 120 to 360 seconds, or from 180 to 300 seconds.

The magnetic field induction at the first stage of processing is 0.45 mT.

The magnetic field induction at the second processing stage is 0.91 mT.

The magnetic field induction at the third stage of processing is 1.88 mT.

The period of time during which the seed is processed in the first and second of the mentioned steps is 180 seconds at each of these steps.

The period of time during which the seed is processed in the third step mentioned is 300 seconds.

For processing, four synchronized radiation channels are used and up to four sections of seed that can be removed from each other at a distance of up to 40 meters are simultaneously processed.

Each channel has an effective seed treatment area, which is up to 50 square meters.

The induction coils of the generator channels are mounted on or near the seed itself.

To achieve the specified result and the implementation of the claimed method, a device for pre-sowing processing of seed material has been developed, comprising a master oscillator with a frequency in the range from 6 to 19 Hz, connected to a direct current source and means for emitting electromagnetic waves, said device including four synchronized channels the formation of a low-frequency signal, the inputs of which are connected to the output of the master oscillator, and the outputs are connected to the circuits for monitoring the presence and regulation of radiation power niya in the range of 0.5-9 watts. The electromagnetic wave radiation source consists of inductive coils, each of which is connected to the output of an appropriate circuit for controlling the presence and regulation of radiation power so that the coils can be spaced up to 40 m apart.

In the particular case of the manufacture of the claimed device:

Schemes for monitoring the presence and regulation of radiation power are made with LED indicators.

The device is configured to provide control and fine-tune the output parameters of each channel separately.

The device may contain means for controlling the radiation time (timer), and also use computer facilities (computer).

The device can be configured to provide continuous monitoring of all the specified parameters of the processing of seed on the LCD display of the generator.

In FIG. 1 is a structural diagram of a device for pre-sowing seed treatment.

The device comprises a master oscillator 1, four synchronized channels 2.1-2.4 for generating a low-frequency signal (four-channel power amplifier), the inputs of which are connected to the output of the master oscillator 1, and the outputs are connected to circuits 3.1-3.4 for controlling the presence and regulation of radiation power. A means of emitting electromagnetic waves consists of four inductive coils 4.1-4.4. Each coil 4.1-4.4 is associated with the output of a corresponding circuit for controlling the presence and regulation of radiation power. The connection and structural design of inductive coils 4.1-4.4 allows you to carry them to a distance of 40 m from each other. Schemes 3.1-3.4 control the presence and regulation of radiation power made with LED indicators (not shown).

Power is supplied by a DC voltage of 10-16 V, which allows the use of a car battery.

The master oscillator 1 provides the necessary sinusoidal waveform, which is fed to a four-channel power amplifier with predetermined values of non-linear and phase distortion.

From the outputs of the power amplifier, the electric signal is supplied to the inductors 4.1-4.4 through the circuit 3.1-3.4 in each channel.

Indication of the presence and magnitude of the output signal in each channel is made using the LED emitter installed in each channel.

The capacity of the battery with a capacity of 55 Ah is enough for continuous operation of the device with a load of four inductors for ten hours.

For processing, a low-frequency electromagnetic signal generator is used, mainly 6-19 Hz (inaudible and completely safe for humans) with the characteristics of the created field, which are perceived by the plant cells as controlling.

Processing of seed is carried out by a low-frequency electromagnetic signal in the form of a pulsating electromagnetic field with a frequency in the range from 6 to 19 Hz, which leads to the smooth activation of gibberellins when the seeds exit the dormant state and stimulates the growth and other processes of plant development.

In the process of processing the seed, the magnetic field induction values found experimentally are established: 0.45 mTl for a time period of 180 seconds, 0.91 mTl for a period of 180 seconds and 1.88 mT for a time period of 300 seconds.

There is a change in the power of electromagnetic radiation in the range of 0.5-9 watts.

Given that the generator is a compact device (weight about 2 kg), the use of such technology can be carried out in any field conditions in any place.

The claimed group of inventions is industrially applicable, since the claimed method uses a generator made of currently known materials and components.

The applicant conducted experimental tests of the claimed method using the inventive generator, as a result of which the germination and growth rate of plants from the seeds processed by the claimed method increased to 20%.

Claims (11)

1. The method of pre-sowing treatment of seed, which consists in the fact that the seed is exposed to a low-frequency electromagnetic field in the range from 6 to 19 Hz, characterized in that the processing is carried out sequentially in three stages, and the magnitude of the magnetic field induction in the first stage is 0.45 mTl with a seed treatment time of 180 s, in the second stage - 0.91 mTl for a time period of 180 s, and in the third stage - 1.88 mTl for a time period of 300 s. 2. The method according to claim 1, characterized in that 4 radiation channels are used. 3. The method according to p. 2, characterized in that they process simultaneously up to four sections of seed. 4. The method according to p. 3, characterized in that the said sections are removed from each other at a distance of up to 40 meters. 5. The method according to p. 2, characterized in that each channel has an effective seed treatment area, which is up to 50 square meters. 6. The method according to p. 1 or 2, characterized in that the induction coils of the generator channels are installed on the seed itself or next to it. 7. A device for pre-sowing processing of seed material, including a frequency-controlled oscillator and a source of electromagnetic radiation, characterized in that it includes four synchronized channels for generating a low-frequency signal, the inputs of which are connected to the output of the master oscillator, and outputs - with control circuits for the presence of a signal and regulation of radiation power in the range of 0.5-9 W, the radiation source of electromagnetic waves contains inductive coils, each of which is connected with the output of an appropriate signal monitoring circuit and controlling the radiation power so that the coils can be spaced up to 40 meters apart. 8. The device according to p. 7, characterized in that the circuit for monitoring the presence of a signal and controlling the radiation power is made with LED indication. 9. The device according to p. 7, characterized in that it is configured to provide control and fine-tune the output parameters of each channel separately. 10. The device according to p. 7, characterized in that it contains means for controlling the radiation time (timer). 11. The device according to p. 7, characterized in that it contains a computer.

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