RU2300187C1 - Plant growth promoting method - Google Patents

Abstract

FIELD: agriculture, in particular, plant development and growth promoting process.

SUBSTANCE: method involves providing complex action upon plants of periodic succession of preliminarily set amount of unidirectional, multiple-directional magnetic induction pulses; providing additional and synchronous action upon basal part of plants of supersonic vibration pulses in two mutually perpendicular directions.

EFFECT: increased efficiency by improving plant capillary permeability and enhanced effect of magnetic-pulsed treatment.

2 cl, 3 dwg

Description

The invention relates to agriculture, and in particular to means of stimulating the development and growth of plants by means of their pulsed magnetization with additional synchronous exposure to ultrasound.

A device is known which consists of an electric current pulse shaper and a magnetic field emitter. The shaper comprises a power supply unit, a capacitor storage of electrical energy, a key unit and a key device control unit. The power supply unit is connected to the capacitor bank and the key block control unit, which is connected to the control input of the key block, and the capacitor bank and the key block connected in series to it are connected at the output of the driver to a magnetic field emitter made in the form of a solenoid. An alternating voltage of an industrial network of 220 V, 50 Hz is supplied to the input of the shaper. During the positive half-cycle, the key block is closed and the capacitor bank is charged through the power supply. In the negative half-period, the block opens the key block and the capacitor storage is discharged to the solenoid, which creates a magnetic field pulse in the emitter (See RF Patent No. 2083070, 1993, class A01C 1/00, BI No. 19, 1997).

However, this device can operate only at one repetition rate of magnetic pulses - a network frequency of 50 Hz and does not allow the plants to be treated with multidirectional magnetic induction pulses in combination with additional exposure to ultrasound.

A device for magnetic-pulse processing of plants is also known, containing a stabilized power supply, a common bus and the first output of which are connected to the power supply circuit of the logic elements, and the second output is connected via the first key and thermostable ballast resistor to the first conclusions of the storage capacitor, voltage indicator, first the inductor and the cathode of the first diode, the anode of which is connected to the second terminal of the first inductor, and the second terminals of the storage capacitor, voltage indicator, second and third to beams are connected to the shared bus of the stabilized power supply unit, a master oscillator is connected by an output to the input of the frequency divider, the outputs of which are connected to the inputs of the switch, the output is connected to the input of a single vibrator, the output of which is connected to the first input of the first AND element, and the input of the first delay element connected to the first input of the second element And, the start button, the output of which through the element of suppression of bounce of contacts is connected to the second input of the second element And, the output of which is connected to the S-input of the RS-trigger RA, the first output of which is connected to the control input of the first key, the third and fourth elements And, the outputs of which through the first and second amplifiers-drivers are connected to the control inputs of the second and third keys, respectively, a number input unit, an output connected to the information input of the digital unit indications, the first leads of the first and the end of the second windings of the coil of the second inductor are connected to the second terminal of the first inductor and the cathodes of the second and third diodes, and the second leads of the end of the first and beginning of the second windings the coils of the second inductor are connected, respectively, with the anodes of the second and third diodes, as well as with the first outputs of the second and third keys, the first output of the RS-trigger is connected to the second input of the first element And, the output of which is connected to the counting input of the digital display unit, with the first inputs the third and fourth elements And and the input of the T-trigger, the first and second outputs of which are connected to the second inputs, respectively, of the third and fourth elements And, and the output of the digital display unit through the second delay element is connected to R-I RS trigger, while the winding of the first and second windings of the coil of the second inductor is made in two wires of the same direction (See RF patent No. 2231949, 10.23.2002, class. A01G 7/04, BI No. 19, 2004).

However, this device for magnetic-pulse treatment of plants does not allow the processing of plants with unidirectional pulses of magnetic induction in the same inductor, and also additionally synchronously affect the plants with pulses of ultrasonic vibrations in two mutually perpendicular directions.

The closest technical solution known is a device for magnetic pulse processing of plants, containing an uninterruptible power supply connected to the input of the power supply, a common bus and the first output of which are connected to the power supply circuit of the logic elements, and the second output is connected to the input of the first key, the first cumulative a capacitor and a voltage indicator, the first terminals of which are connected to the first terminal of the vertical inductor coil, the second terminal of which is connected to the first terminal of the second switch, and the second terminals The first storage capacitor, the first voltage indicator, the second and third switches are connected to the common bus of the power supply unit, the master oscillator is connected by an output to the input of the frequency divider and the second input of the first OR-NOT element, the first input of which is connected to the tenth terminal of the control panel and the first terminal a resistor, the second output of which is connected to the first output of the power supply, the m-outputs of the frequency divider are connected to the m-inputs of the first switch, the output of which is through the first one-shot and amplifier-former soy inen with the control input of the third key, the m-output of the frequency divider is connected to the first input of the second switch and the input of the decimal counter, the output of which is connected to the second input of the second switch, the second OR-NOT element, the first and second inputs of which are connected, respectively, with the output of the first the OR-NOT element and the output of the second switch, a decimal counter-decoder whose input is connected to the output of the second OR-NOT element, and its outputs from zero to ninth are connected from zero to the ninth inputs of the control panel, zero in the course of the decimal counter-decoder is connected to the zero reset inputs of the decimal counter, the frequency divider and the input of the first element NOT, the second amplifier-driver, the output of which is connected to the control input of the second key, is the first diode, the second, third, fourth and fifth diodes are additionally introduced into it , first, second and third switches, second and third storage capacitors, second and third voltage indicators, horizontal inductor coil, first and second spherical mirrors, infrared radiation source, a pulsed discharge lamp, an ignition unit, a second element NOT, a second and third one-shots, an audible alarm unit, while the output of the first key through an infrared radiation source is connected to the anodes of the first, second and third diodes, the cathodes of which are connected to the first terminals, respectively, of the first, second and a third switch, the second terminals of which are connected, respectively, with the first terminal of the first storage capacitor, with the first terminals of the second storage capacitor, the second voltage indicator and a horizontal inductor coil, with the first terminals of the third storage capacitor, the third voltage indicator, the ignition unit and the pulsed discharge lamp, and the second conclusions of the second and third storage capacitors, the second and third voltage indicators, the ignition unit and the pulse discharge lamp, connected to a common bus of the power supply, the second terminal of the horizontal inductor coil is connected to the first terminal of the third key, the third terminal of the ignition unit is connected to the ignition electrode of a pulsed gas-discharge amperes, the third terminals of the first and second switches are connected to the anodes of the fourth and fifth diodes, and their cathodes are connected to the third terminal of the third switch, the fifth and fourth terminals of the first and second switches, respectively, are connected to the output of the second amplifier-former, and the fifth terminals of the second and third switches respectively connected to the output of the first amplifier-driver and the control input of the ignition unit, the control input of the first key is connected to the output of the first element NOT, the input of the second element is NOT connected It is connected to the output of the first switch, and the output of the second element is NOT connected through the second one-shot to the input of the second amplifier-driver, the input of the third one-shot is connected to the zero input of the reset of the frequency divider, and the output of the third one-shot is connected to the input of the sound alarm unit, the inductor is made in the form of two mutually perpendicular ordinary winding coils with a step equal to at least two diameters of the winding wire wound on rectangular frames, one of which is in the cavity of the other, with each of Windows are made on two opposite sides of the horizontal coil winding frame, close to which are installed together with spherical mirrors directed into the interior of its cavity, on the one hand there is an infrared radiation source, and on the opposite side there is a pulsed discharge lamp (see RF patent №2253222, December 29, 2003, cl. A01G 7/04, Bull. No. 16, 2005. A device for magnetic pulse treatment of plants. - prototype).

However, this device for magnetic-pulse treatment of plants can only be used to effect on plants a periodic sequence of a predetermined number of magnetic induction pulses, alternating with a repetition rate in two mutually perpendicular directions, as well as additional exposure to light pulses of different wavelengths on the basal and apical parts plants. It does not allow the treatment of plants with multidirectional pulses of magnetic induction, and also additionally synchronously affect the plants with pulses of ultrasonic vibrations in two mutually perpendicular directions, providing a disinfecting effect and additional positive development reactions in ordinary and hard-rooted plants.

The problem to which the invention is directed, is to create a device suitable for effecting plants in the same inductor of a periodic sequence of a predetermined number of unidirectional, multidirectional pulses of magnetic induction, with the possibility of additional synchronous exposure to the basal part of plants with pulses of ultrasonic vibrations in two mutually perpendicular directions providing a disinfecting effect, increasing the permeability of the mouthpiece lyarov plants, the growing influence of magnetic-pulse processing.

The problem is solved in that in the plant growth activator containing an uninterruptible power supply, the first output terminal connected to the first output terminal of the power supply and the first output of the current limiter, the second output terminal of the uninterruptible power supply connected to the second terminals of the inputs of the power supply and rectifier circuit, minus the outputs of the outputs of which are connected by a common bus to the second outputs of the voltage indicator, storage capacitor, first and second keys, a common bus and the third output of the positive output with the voltage of the power supply unit is connected to the power supply circuit of logic elements and units, the first and second identical inductor coils, which are wound in two wires of the same direction and placed on a hollow dielectric frame, a two-position electromagnetic relay with two groups of normally closed contacts, respectively, the first, third and second fifth, the second output of the current limiter is connected to the input of the third key, the output of which is connected to the first output of the input of the rectifier circuit, the positive output of which connected to the second input of the first switch connected to the anode of the diode, the cathode of which is connected to the first switching contact of the first group of contacts of the two-position electromagnetic relay, with the first terminals of the voltage indicator, the storage capacitor and the first inductor coil, the second terminal of which is connected to the first terminal of the first key, the control input of which is connected to the output of the first amplifier-driver, the second amplifier-driver, the output connected to the control input of the second key, p the first terminal of which is connected to the second switching contact of the second group of contacts of the two-position electromagnetic relay, the third contact of the first group of contacts and the sixth contact of the second group of contacts are connected to the first terminal of the second inductor coil, the second terminal of which is connected to the fourth and fifth contacts of the first and second group of contacts a two-position electromagnetic relay, the seventh output of the winding of which is connected to a common bus, and its eighth output of the winding is connected to the output of the second switch sensor, the second input of which is connected to the fourth output of the positive output of the voltage of the power supply unit, a control panel connected to the control input of the digital timer, the output of which is connected to the control input of the third key through the galvanic isolation element, and through the series-connected first element NOT and the one-shot is connected to the input a sound alarm unit, a master oscillator, connected by an output to a digital timer input and with a countable C-input of a frequency divider, whose R-input is connected to the output of the first electronic NOT, the m-outputs of the frequency divider are connected to the m-inputs of the switch, the output of which is connected to the input of the second one-shot, and through the second element is NOT connected to the input of the third one-shot, the outputs of the second and third one-shots are connected to the inputs of the first and second amplifiers-shapers, as well as with the first and second inputs of the OR element, the third switch, an ultrasonic pulse generator, the third element NOT, the first and second AND elements, pulse power amplifiers ultra sound frequency and emitters of pulses of ultrasonic vibrations, while the output of the ultrasonic pulse generator is connected to the second input of the third switch, the first input of which is connected to a common bus, the output of the OR element is connected to the first input of the first AND element, and through the third element is NOT connected to the first input the second element And, the second inputs of the first and second elements And are connected to the output of the third switch, the outputs of the first and second elements And are connected respectively through the first and second amplifiers NOSTA pulses of ultrasonic frequency to the first and second pulses of ultrasonic vibration emitters, which are arranged mutually perpendicular and are arranged together with the plants in the containers with a liquid nutrient medium inside the inductor.

The technical result is expressed in that due to the ultrasonic frequency pulse generator, the third element NOT, the first and second I elements, the power amplifiers of the ultrasonic frequency pulses and the emitters of the ultrasonic vibration pulses, which are mutually perpendicular and are placed together with plants in a container with liquid nutrient medium inside the inductor and their electrical connections, it was possible to carry out impacts on the basal part of conventional and difficult to root s pulses of ultrasonic vibrations in two mutually perpendicular directions and synchronously with them unidirectional and multidirectional magnetic induction pulses to stimulate metabolic processes and their adaptation to the external environmental factor.

The novelty of the proposed technical solution lies in the new elements introduced into the proposed device, their electrical connections and electrical signal transformations.

The analysis of the prior art, including a search by patent and scientific and technical sources of information, and the identification of sources containing information about analogues of the claimed invention, made it possible to establish the absence of a technical solution in the sources, characterized by features identical to those of the proposed invention. The definition from the list of identified analogues of the prototype, as the closest in the totality of the features of the analogue, allowed us to establish a set of essential distinguishing features in relation to the seen technical result in the claimed device set forth in the claims.

Therefore, the claimed invention meets the condition of "novelty."

The results of an additional search for known solutions showed that the claimed invention does not contain features that match the distinctive features of the claimed device from the prototype.

Therefore, the claimed invention does not follow for a specialist explicitly from the prior art, but is the result of the creative work of the inventors.

Therefore, the claimed invention meets the condition of "inventive step".

The plant growth activator is illustrated in the drawing, where Fig. 1 shows the electrical block diagram of the activator, Fig. 2 is a diagram of the placement of plants in the inductor, and Fig. 3 is a timing diagram of the activator.

The plant growth activator contains an uninterruptible power supply 1, the first output terminal of which is connected to the first output terminal of the power supply 2, the first output of the current limiter 3. The second output terminal of the uninterruptible power supply 1 is connected to the second terminals of the inputs of the power supply 2 and rectifier circuit 4, negative terminals the outputs of which are connected by a common bus with the second terminals of the voltage indicator 5, the storage capacitor 6, the first and second keys 7 and 8. The common bus and the third terminal of the positive output of the stabilized voltage The power supply unit (+ U2) of power supply 2 is connected to the power supply circuit of logic elements and units. The first and second identical coils L1 and L2 of the inductor 9, which are wound in two wires of the same direction and placed on a hollow dielectric frame. On-off electromagnetic relay 10 with two groups of K1.1 and K1.2 normally closed contacts, respectively, the first with the third and second with the fifth. The second output of the current limiter 3 is connected to the input of the third switch 11, the output of which is connected to the first output of the input of the rectifier circuit 4. The positive output of the voltage output (+ U1) of the rectifier 4 is connected to the second input of the first switch 12, the output of which is connected to the anode of the diode 13. The cathode of the diode 13 is connected to the first switching contact of the first group of contacts K1.1 of the on-off electromagnetic relay 10, with the first outputs of the voltage indicator 5, the storage capacitor 6 and the first coil L1 of the inductor 9, the second output of which is connected inen with the first output of the first key 7, the control input of which is connected to the output of the first amplifier-driver 14.

The second amplifier-driver 15, the output of which is connected to the control input of the second key 8, the first output of which is connected to the second switching contact of the second group of contacts K1.2 of the two-position electromagnetic relay 10. The third contact of the first group of contacts K1.1 and the sixth contact of the second group of contacts K1 .2 two-position electromagnetic relay 10 is connected to the first terminal of the second coil L2 of the inductor 9, the second terminal of which is connected to the fourth and fifth contacts of the first and second groups of contacts K1.1 and K1.2 respectively position electromagnetic relay 10, the seventh output of the winding of which is connected to the common bus, and its eighth output of the winding is connected to the output of the second switch 16, the second input of which is connected to the fourth output of the positive voltage output (+ U3) of power supply 2. The control panel 17 connected to the control input of the digital timer 18, the output of which through the galvanic isolation element 19 is connected to the control input of the third key 11, and through the first element HE 20 in series and the one-shot 21 is connected to the input of the sound block alarm 22. The master oscillator 23, the output of which is connected to the input of the digital timer 18 and with the counting C-input of the frequency divider 24, the R-input of which is connected to the output of the first element NOT 20. The frequency divider 24, whose m-outputs are connected to m- the inputs of the switch 25, the output of which is connected to the input of the second one-shot 26, and through the second element HE 27 is connected to the input of the third one-shot 28. The outputs of the second and third one-shots 26 and 28 are connected to the inputs of the first and second amplifiers-shapers 14 and 15, and from the first the second and second inputs of the OR element 29, the output of which is connected to the first input of the first And 30 element, and through the third element NOT 31 is connected to the first input of the second And 32 element. The third switch 33, the first input of which is connected to the common bus, and its second input connected to the output of the ultrasonic pulse generator 34. The output of the third switch 33 is connected to the second inputs of the first and second elements And 30 and 32, the outputs of which are connected respectively through the first and second power amplifiers of pulses of ultrasonic frequency 35 and 36 with p rvym and second pulses of ultrasonic oscillations emitters 37 and 38 which are rigidly secured to the cover 39, are arranged mutually perpendicular and are arranged together with the plants 40 in the container 41 with the liquid nutrient medium 42 inside the inductor 9.

The device operates as follows.

When processing plants with unidirectional pulses of magnetic induction, plants are placed and oriented in the required manner inside the cavity of the frame of coils L1, L2 of inductor 9, the first, second and third switches 12, 16 and 33 are set to positions 2, 1 and 1, respectively (in Fig. 1, the input numbers and the positions of both the switches and the switch are indicated on their contacts inside their graphic images). Using the switch 25, one value of the frequency F _{c is set} from m possible frequencies of the magnetic induction pulses (for example, set to position 1, corresponding to the highest frequency of the operating frequency range), and using the keyboard of the control panel 17 select the required exposure time interval τ _e digital timer 18.

The set number of pulses N of the periodic sequence of unidirectional pulses of magnetic induction in the inductor 9 is determined from the expression (1):

N = τ _E · 2 _Fc (1),

Fc = 1 / T _s (2),

where T _c - the repetition period of the rectangular pulse at the output of the first switch 25, s;

τ _e - the exposure interval specified with the digital timer 18, s.

Initialize the start of operation of the device by pressing the button of the selected value of the exposure time interval on the control panel 17, while a strobe pulse of duration τ _e from the output of the digital timer 18 (Fig. 3, pos. 43), inverted by the first element NOT 20 (Fig. 3, pos. .44), enters the R-input of the frequency divider 24 and allows the count of pulses synchronized with the digital timer 18 to be received at the counting C-input of the frequency divider 24 and the input of the digital timer 18 from the output of the same master oscillator 23.

Thus, the frequency divider 24 during the whole time τ _e is in working condition, therefore, from the output of the switch 25 to the inputs of the second one-shot 26 and the second element NOT 27 receive rectangular pulses with a repetition rate F _c = 1 / T _s (figure 3, Pos. 46). At the same time, the leading edge of the formed rectangular strobe pulse of duration τ _e from the output of the digital timer 18 through the galvanic isolation element 19 enters the control input of the third key 11 and opens it for the time τ _e (Fig. 3, item 43). In this case, the DC voltage (+ U1) from the positive output of the output of the rectifier circuit 4 through the diode 13 is supplied to the first output of the storage capacitor 6, charging it for a time t _a to voltage U1 (Fig. 3, item 51), which is controlled by the indicator voltage 5.

The second one-shot 26, from the packet of rectangular pulses received at its input (Fig. 2, item 46) generates at its output the first packet of short pulses of duration τ and the repetition period T _c (Fig. 3, item 47).

The third one-shot 28 forms from the signal received, inverted by the second element HE 27, a second packet of short pulses of duration τ and a pulse repetition period T _c delayed relative to the first packet of pulses for a period equal to half their repetition period (Fig. 3, item 48).

Thus, the second and third one-shots 26 and 28 form at their outputs bursts of short pulses of duration τ with the number of pulses in each burst equal to N _e = τ _e · F _c (Fig.2, pos.47 and 48).

The first packet of short pulses from the output of the second one-shot 26 through the first amplifier-driver 14 goes to the control input of the first key 7, and the second pack of short pulses from the output of the third one-shot 28 through the second amplifier-driver 15 goes to the control input of the second key 8 (as the first and the second keys 7 and 8 use thyristors).

The first short pulse of the first burst of pulses N _1e , received at the control input of the first key 7, opens it, and there is a discharge of the storage capacitor 6 through the winding of the first coil L1 of the inductor 9 over time τ _k (Fig. 3, item 54). As a result of the leakage current inductor 9 flowing through the winding of the first coil L1, a magnetic induction pulse arises in it (Fig. 3, item 56), affecting the plants placed in the inductor 9. Also, the first short pulse of the second packet of pulses N _2E (figure 3, pos. 48), received at the control input of the second key 8, opens it. In this case, the next discharge of the storage capacitor 6 occurs through the winding of the second coil L2 of the inductor 9 in the same time τ _k (Fig. 3, item 55). As a result, a second magnetic induction pulse appears in the second coil L2 of the inductor 9 (Fig. 3, item 56), affecting the plants placed therein.

The process then proceeds similarly and finally ends with the arrival of a trailing edge of a strobe pulse of duration τ _e from the output of a digital timer 18 (Fig. 3, pos. 43), which closes the third switch 11 with its trailing edge and interrupts the voltage supply (+ U1), and entering through the first element NOT 20 to the R-input of the frequency divider 24, stops its count, the process stops. At the same time, the sound signaling unit 22 from the power surge received at its input from the output of the first element NOT 20 (Fig. 3, item 44) through the first one-shot device 21 generates an audio signal of duration τ _sound (Fig. 3, item 45), which notifies in a few seconds, that the process of processing plants is completed.

Thus, the total number of unidirectional magnetic induction pulses obtained by the plants during their processing (Fig. 3, item 56) will be determined from the above expression (1).

To process the plants in the inductor 9 with multidirectional pulses of magnetic induction, the second switch 21 is moved from position 1 to 2, while the power is supplied to the eighth output of the winding of the on-off electromagnetic relay 10, which with its contacts K1.1 and K1.2 changes the direction of current flow (when turned on the second key 8) in the coil L2 of the inductor 9 to the opposite. As a result, the total number of multidirectional magnetic induction pulses obtained by plants during their processing (Fig. 3, item 57) will also be determined from the previously given expression (1).

When magnetic-pulse treatment of plants with an additional synchronous effect on their basal part by pulses of ultrasonic vibrations in two mutually perpendicular directions inside the inductor 9 in the tank 41 with a liquid nutrient medium 42 and installed in it mutually perpendicular to the first and second emitters of pulses of ultrasonic vibrations 37 and 38 is placed plants 40 (figure 2), and the third switch 33 is transferred from position 1 to 2 (figure 1).

At the same time, from the output of the OR element 29, short pulses of duration τ with a repetition period of 0.5 T _s (figure 3, pos. 49) are received at the first input of the first element And 30, and the NOT element is received through the third element AND 32 through the third element 31 of their inverted values (figure 3, pos. 50). In addition, the second inputs of the first and second elements And 30 and 32 from the output of the third switch 33 receives rectangular pulses of ultrasonic frequency. Thus, at the output of the first and second elements And 30 and 32, packets of pulses of ultrasonic frequency of duration τ and 0.5T _s-τ, respectively, will be formed (Fig.3, pos.52, 53). These packs of packages of pulses of ultrasonic frequency pulses synchronously with pulses of magnetic induction arrive respectively through the first and second power amplifiers of pulses of ultrasonic frequency 35 and 36 to the first and second emitters of pulses of ultrasonic vibrations 37 and 38 and are emitted by them in a liquid nutrient solution in two mutually perpendicular directions, acting on the basal parts of plants in synchronism with pulses of magnetic induction over the interval τ _e (Fig.3, pos.58, 59). In this case, the packages of pulses of vibrations of ultrasonic frequency emitted by the first emitter of pulses of ultrasonic vibrations 37 have a more stimulating effect by increasing the permeability of capillaries, and the packages of pulses of vibrations of ultrasonic frequency emitted by the second emitter of pulses of ultrasonic vibrations 38 have a more disinfecting effect, destroying fungal spores and other parasites (in figure 1, the radiation directions of each of the emitters of pulses of ultrasonic vibrations 37 and 38 are conventionally indicated by three olnistymi arrows, and Figure 2 - three semicircles).

Stability and autonomy of the device is achieved through the use of uninterruptible power supply 1, which is essential when the device is in the field.

Claims (2)

1. The plant growth activator containing an uninterruptible power supply, the first output terminal connected to the first output terminal of the power supply unit and the first output of the current limiter, the second output terminal of the uninterruptible power supply connected to the second terminals of the inputs of the power supply and rectifier circuit, the negative outputs of which are connected by a common bus with the second terminals of the voltage indicator, the storage capacitor, the first and second keys, the common bus and the third terminal of the positive output of the stabilized voltage of the pi block The voltages are connected to the power circuit of the logic elements and blocks, the first and second identical inductor coils, which are wound in two wires of the same direction and placed on a hollow dielectric frame, a two-position electromagnetic relay with two groups of normally closed contacts, respectively, the first with the third and second with the fifth, the second output of the current limiter is connected to the input of the third key, the output of which is connected to the first output of the input of the rectifier circuit, the positive output of which is connected to the second input of the first switch, the output of a diode connected to the anode, the cathode of which is connected to the first switching contact of the first group of contacts of a two-position electromagnetic relay, with the first terminals of the voltage indicator, the storage capacitor and the first inductor coil, the second terminal of which is connected to the first terminal of the first switch, the control input of which is connected to the output of the first amplifier-driver, the second amplifier-driver, the output connected to the control input of the second key, the first output of which is connected to the second m switching contact of the second group of contacts of the two-position electromagnetic relay, the third contact of the first group of contacts and the sixth contact of the second group of contacts are connected to the first terminal of the second inductor coil, the second terminal of which is connected to the fourth and fifth contacts of the first and second group of contacts of the two-position electromagnetic relay, seventh the output of the winding of which is connected to a common bus, and its eighth output of the winding is connected to the output of the second switch, the second input of which is connected with the fourth output of the positive output of the voltage of the power supply, a control panel connected to the control input of the digital timer, the output of which is connected through the galvanic isolation element to the control input of the third key, and through the series-connected first elements NOT and the one-shot is connected to the input of the audible alarm unit, the master oscillator connected with the input of a digital timer and with a counting C - input of the frequency divider, R - the input of which is connected to the output of the first element NOT, m-outputs of the frequency divider connected to the m-inputs of the switch, the output of which is connected to the input of the second one-shot, and through the second element is NOT connected to the input of the third one-shot, the outputs of the second and third single-vibrators are connected to the inputs of the first and second amplifiers-shapers, as well as with the first and second inputs of the element OR, a third switch, characterized in that an ultrasonic pulse generator, a third element NOT, a first and second AND element, a power amplifier of the ultrasonic pulse s and emitters of pulses of ultrasonic vibrations, while the output of the ultrasonic pulse generator is connected to the second input of the third switch, the first input of which is connected to a common bus, the output of the OR element is connected to the first input of the first AND element, and through the third element is NOT connected to the first input of the second element And, the second inputs of the first and second elements And are connected to the output of the third switch, the outputs of the first and second elements And are connected respectively through the first and second power amplifiers pulse s ultrasonic frequency with the first and second emitters of pulses of ultrasonic vibrations. 2. The plant growth activator according to claim 1, characterized in that the first and second emitters of pulses of ultrasonic vibrations are mutually perpendicular and are placed together with the plants in a container with a liquid nutrient medium inside the inductor.

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