RU2737320C1 - Method for whiteflies combat and device for its implementation thereof - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Disclosed is a device for controlling whiteflies, comprising a manipulator mounted on a tractor, located on its end of device for scaring and trapping whiteflies. At that, the device for whiteflies catching is made in the form of a cap, the device for whitefly shinning is made in the form of two resonators structurally connected to subwoofers, coils of electrodynamic systems of which are connected to output of low frequency signal amplifier, to input of which low frequency signal generator output is connected. In the top of the cap there is an exhaust branch pipe, an airflow trap with a suspension in the form of a whitefly, which is connected by means of a flexible pipe to the ejector, the input of which is connected to the exhaust pipe of the tractor, and the outlet has a communication with the environment.

EFFECT: higher efficiency of whiteflies collection.

3 cl, 11 dwg

Description

The invention relates to the field of agriculture, in particular, to methods of protecting plants from whitefly.

Known biological method of combating greenhouse whitefly (Trialeucodes Vaporariorum Westrood) by using the encarsia of a small wasp from the order of Hymenoptera insects (see AA Shapova, S.Sh. Nurmukhamedova. Biological methods of fighting whitefly. Express information. - Tashkent: NIINTI and TEI of the State Planning Committee of the Uzbek SSR, 1985. - S. 2-3).

The disadvantage of this method, like other biological methods of struggle, is the need to create special biological laboratories for the mass breeding of encarsia, which predetermines large material and labor costs. So, for the settlement of one of the plants, in particular, tobacco, it is necessary to release 600 individuals of encarsia. In this case, the release of the encarsia with a 10 ... 14-day interval must be repeated. Moreover, encarsia can give an effect only if there are no other types of treatments during this period, first of all, chemical (see A.A. Shapov, S.Sh. Nurmukhamedov. Biological methods of fighting whitefly. Express information. - Tashkent: NIINTI and TEI of the State Planning Committee of the Uzbek SSR, 1985. - S. 2-3). In addition, the application of the method is notable for its high cost, as well as the fact that it does not provide overwhelming destruction of the whitefly, since a certain biological balance is established between the whitefly and the encarsia, since the condition for the vital activity of the encarsia is the presence of the whitefly, which one way or another, but reduces the yield of the corresponding crops ...

Known kit for the destruction of insects and a method of its use for the destruction of fleas and other insects, in which a limited area is carried out continuous cleaning and sprayed this area with an insecticide containing 1.07% pyrethrin or synthetic pyrethroid. After drying of the insecticide and dispersion of toxic substances, at least one transparent control device with an adhesive surface is placed for catching and determining the presence of live fleas or other insects. After 3 ... 14 days, a poisonous substance is selectively used again in those areas where the traps showed the presence of insects. The kit for the destruction of insects contains a container with an insecticide and an adjustable sprinkler (see US patent N 4882873, class A01M 7/00, 43-132, 1, 1989, vol. 1108, N 4).

The disadvantage of this method is the high toxicity of the pyrethrin insecticide, which is unsafe for the environment, in particular, the use of the pyrethrin insecticide can lead to mass death of useful entomophages. In addition, the technology for performing the method consists of a number of separate stages, which complicates its implementation and is associated with the need to use additional materials and devices, for example, an adhesive material, an adjustable sprinkler, etc.

At the same time, along with the whitefly, the device also collects the rest of both useful and harmful insects.

There is a known method of protecting the vegetative organs of grain plants from economically dangerous insects by treating plants with an aqueous solution of urea, characterized in that, in order to increase the resistance of plants to insects and reduce environmental pollution, the treatment of plants is carried out with 8 ... 10% urea solution, in which 3 ... 5% solution of polyvinyl alcohol or 1.5 ... 2.5% solution of sodium salt of carboxylmethylcellulose is preliminarily introduced (see ed. St. USSR No. 1681803, class A01M 1/00, BI No. 37 for 1991 , P. 12).

The disadvantage of this method is that it has little effect on the number of pests. In particular, the urea solution has only a stimulating effect on plants and, improving their vital state, increases their resistance to insects. Polyvinyl alcohol and carboxymethyl cellulose are high molecular weight compounds and can reduce the number of insects by enveloping them in the form of glue, but the technology for their application is complex and the consumption rates are large. So, for example, polyvinyl alcohol is soluble in water only when heated, its aqueous solutions have a high viscosity, which complicates its use. Moreover, it is expensive, especially since it is used in the form of a 3 ... 5% aqueous solution. Also, carboxymethyl cellulose is expensive, which also increases the cost of using this method.

A known method of combating whitefly by placing bright yellow plates in greenhouses and hotbeds (yellow attracts whitefly) filled with soapy water, which is a surfactant solution (see SP Myartseva et al. Temporary recommendations for combating greenhouse whitefly in the Turkmen SSR. - Ashgabat: Ylym, 1988. - P. 10).

The disadvantage of this method is that it is applicable for greenhouse conditions, but on field crops, its use is almost impossible. In addition, the method is not effective enough even in greenhouses, since only a small part of the whitefly falls into this trap, which is due to its biological characteristics. In particular, its permanent habitat is the lower surface of the leaves (see A.P. Shapova et al. Biological methods of fighting whitefly. X Express information. - Tashkent: NIINTI and TEI of the State Planning Committee of the Uzbek SSR, 1985. - P. 2) from where it can only take off if it is disturbed. In this case, the flights of adult insects are 5 ... 10 m (mainly they are carried by streams of air masses and wind) (see S.N. Myartseva et al. Temporary recommendations for combating the greenhouse whitefly in the conditions of the Turkmen SSR. - Ashgabat: Ylym, 1988 . - С.5). Therefore, it is required to install plates with soapy water every 5 ... 10 m and take measures to disturb the dormancy of the pest, in particular, scaring the whitefly. A priori, this method can find application, mainly in greenhouses in personal plots, in which plates with soapy water can be installed at distances between them of 5 m or less. However, in these cases, frequent flaring of the whitefly is necessary. The application of this method in large greenhouse complexes of agricultural enterprises is expensive and laborious with insufficient efficiency.

A known method of combating a greenhouse whitefly and a device for its implementation (see RF patent No. 2101950, class A01M 1/00, application No. 5066129/13 dated 06/08/1992, publication date 01/20/1998).

In the known method, including the use of a surfactant (surfactant) through the introduction of a whitefly into contact with it, 0.4 ... 1.0% aqueous solution of sodium salts of alkylaromatic sulfonic acids or 0.3 ... 0.5% - aqueous solution of polyethylene glycol monoalkylphenyl ether based on polymer distillate. Both substances, with slight contact with the whitefly, have the ability to almost instantly wet its outer cover and, by blocking the spiracles, are fatal.

The method is implemented by means of a device mounted on a pneumatic-wheeled tractor, which includes elements in series installed on a hollow supporting frame for scaring and catching a greenhouse whitefly. In this case, the hollow frame is in communication with a reservoir located above it, containing an aqueous solution of surfactants. In the process of movement of a tractor with a device attached to it, under the influence of scare elements, a whitefly takes off, followed by its hitting the catching elements and death.

The following disadvantages are inherent in this method and device for its implementation: the complexity of the structure as a whole (large dimensions, the need to use a relatively large frame mounted on a tractor to install a container on it for preparing an aqueous solution of a surfactant, as well as a pipe system). In addition, the use of whitefly scaring elements made of elastic elastic material and directed deep into the plant bushes to scare the whitefly from the lower parts of the leaves, due to the different spreading of the plant branches, requires a sufficiently large elasticity of the elements to act on the lower part of the leaves. And this, in turn, leads to undesirable mechanical effects on plants, including flowers. In addition, this method and device for its implementation is characterized by a low efficiency of destruction of whitefly, caused by the fact that they predetermine the process of fighting the whitefly with significant sizes of plants with relatively large leaves, the lower surface of which becomes, mainly, a permanent habitat of the whitefly and allows to carry out its scaring by mechanical shaking of leaves with elements made of elastic elastic material. It should be said that in some cases the whitefly appears in greenhouses practically at a time when the plants are undersized. Along with the above, it should be noted that the considered method and device for its implementation are ineffective or unsuitable for the collection and destruction of whitefly from plants grown in creeping rows in an open field (tomatoes, cucumbers, etc.). Along with this, the use of such a device is possible only in large-sized greenhouses of large agro-industrial enterprises. In addition, the known method has a detrimental effect only on adults of the whitefly. Eggs, larvae and nymphs of the whitefly remain invulnerable, as they are at rest and do not come into contact with a canvas cloth moistened with a surfactant solution. This necessitates repeated one-two-time application of the method within the time frame associated with the phenology of the pest.

The closest to the proposed method of combating whitefly and a device for its implementation in terms of the technical essence and the achieved result is the method implemented by a device containing an air distribution chamber with a fan, a hood of two flaps, in the upper part of which the suction pipe of the fan is installed, and in the lower part - the discharge a branch pipe equipped with an electric heater and a rotating blade installed at its outlet, while the cap flaps are interconnected along vertical edges with the possibility of closing them (see USSR AS No. 1685347, class A01M 5/08, publ. in BI No. 39/1991, p. 13). This device implements a method for collecting insects from plants, including the impact on the plant by supplying a heated swirling air flow from below to the lower side of the leaves under a pressure of about 0.5 ... 1.0 atm. through the discharge pipeline, equipped with an electric heater, and simultaneously suction (with a pressure of about 1.0 ... 2.0 atm.) air from under the hood together with the whitefly through a suction pipeline connected to the insect receiver.

The disadvantages of this device are the discomfort and laboriousness of its use, caused by the need to move the elements for scaring and collecting the whitefly manually, the need to heat the air used to scare the whitefly and thermally destroy it, which makes the device energy-intensive, since in addition to the fan, the device is also equipped with an electric heater for insects. Along with this, the supply of hot air to the leaves, heated to a temperature of 60-70 ° C, predetermines the large practical experience of workers who do not allow the exposure time of hot air to leaves and stems of plants for more than 2-3 seconds (the lack of such practical experience leads to burning leaves of plants and their flowers, which makes the pollen sterile and, ultimately, significantly reduces the yield). In addition to the above disadvantages, the prototype also has such a disadvantage as the need to involve at least two workers in the work, carrying the discharge and suction pipelines with sockets, as well as moving the trolley on which the main units of the device are mounted (a case with a fan, an air distribution chamber, an insect collector, etc. etc.).

The general features of the prototype and the proposed method and device for its implementation is the flaring of the whitefly from plants by supplying air and then capturing it with a cap, in the upper part of which there is a branch pipe to which the suction pipeline is connected.

The aim of the present invention is to increase the efficiency of the process of collecting whitefly and its destruction both in large greenhouses and in the open field by significantly reducing manual labor, as well as creating more comfortable conditions for the operation and maintenance of the device, ensuring an increase in yield by activating the process of pollination of plant flowers during their flowering period, increasing the attractiveness of work to combat whitefly among workers.

This goal is achieved by the fact that according to the proposed method, the whitefly flaring is carried out by exposing the plants to low-frequency vibrations of the sound frequency, followed by capturing the flying whitefly with a suction air stream and destroying it.

Distinctive features of the proposed method from the prototype are the scaring of the greenhouse whitefly by acting on the plants and on the whitefly, which is on plants and in free flight, with low-frequency vibrations of the audio frequency (located in the range of 25-95 Hz), and catching the whitefly - by directing the air flow with suspension in the form of a whitefly into the ejector, the suction chamber of which is connected to the pipe carrying the air flow with the suspension of the whitefly, and the nozzle is connected to the pipe with the tractor exhaust gases. Distinctive features of the device for implementing the proposed method of combating whitefly are the presence of a manipulator hung on a tractor, at the end of which there are fixed devices for scaring and catching the whitefly, and the device for scaring off the whitefly is made in the form of two resonators, structurally connected to subwoofers, the coils of the electrodynamic systems of which are connected to the output of the low-frequency signal amplifier, to the input of which the output of the low-frequency signal generator is connected, while the catching device is made in the form of a cap at the top of which there is a branch pipe connected by a flexible pipe with a branch pipe of the suction chamber of the ejector, the input of which is connected to the exhaust pipe of the tractor, and the output has a connection with the environment.

The parameters of the signals of low-frequency oscillations of air flows created by the resonators are such that the whitefly, located on the stems and leaves of plants, as well as in free flight, is frightened and rushes to the top of the cap, which is facilitated by the yellow color of its inner surface and the yellow light emitted by an electric incandescent lamp. the glass cylinder of which is painted with heat-resistant yellow paint. In this case, the reduced air pressure near the top of the hood, created by air suction through a pipeline connected to the suction chamber of an ejector, mounted in the exhaust pipe of the tractor, creates an air flow with whitefly suspension. By changing the operating mode of the tractor engine, which leads to a change in the exhaust gas pressure and the value of the suction pressure, as well as by changing the frequency and power of low-frequency (sound) vibrations, it is possible to purposefully select effective modes of scaring and catching the whitefly, corresponding to the months of the year with reference to the type of plants and fluctuations daily temperatures.

The proposed method for destroying a whitefly can be implemented in various ways of using the device, in particular, by changing the position of the device for scaring the whitefly and the device for catching it.

The method is implemented by hanging a hydraulically driven manipulator on a pneumatic-wheeled tractor, at the second end of which there are devices for scaring and catching a greenhouse whitefly. In this case: resonators are used as scaring elements located on the sides of the plants, structurally connected to subwoofers (low-frequency electrodynamic loudspeakers), the coils of electrodynamic systems of which are connected to the output of the low-frequency oscillation amplifier, the input of which is connected to the output of the low-frequency oscillator; a device for catching a whitefly is made in the form of a rectangular cap, at the top of which a branch pipe is mounted, connected by a pipeline with an ejector, which creates an air flow suction with a suspension of the whitefly that enters the cap after it is flared. Structurally, the board of the low-frequency oscillation generator, the board of the amplifier of low-frequency oscillations and the power board, which ensures the coordination of the power supply with the electrical system of the tractor (generator, battery), are placed in a separately executed unit installed in the cab of the tractor operator. On the front panel of this unit there are: three switches (such as "button" or "toggle switch"), in particular, for supplying power to the generator and amplifier of low-frequency oscillations; to supply voltage of low (sound) frequency from the amplifier of low-frequency oscillations directly to the coils of the electrodynamic systems of subwoofers and to turn on an electric lamp emitting yellow and located at the top of the cap; three regulators ("potentiometer" type), in particular, for adjusting the frequency of oscillations generated by the generator of low-frequency oscillations, for adjusting the power of low-frequency electrical oscillations supplied to the subwoofers, and for adjusting the brightness of the glow of an electric lamp emitting yellow and located at the top of the dome.

In the process of movement of the tractor with a manipulator attached to it, carrying subwoofers and a catcher, under the influence of an oscillating air flow created by resonators with subwoofers, the whitefly takes off, followed by it entering the air flow entering through the injector into the pipe with the exhaust exhaust gases of the tractor, and its destruction by incineration.

The technical result consists in ensuring the execution of operations for scaring a whitefly located on plants or in free flight, low frequency sound vibrations created by diffusers of subwoofers, and connecting a catcher made in the form of a cap, at the top of which there is a branch pipe, by means of a flexible pipe with an ejector suction chamber, mounted in the exhaust pipe of the tractor.

The technical result is provided by the following set of features: a device for collecting and destroying a whitefly, containing a manipulator hung on a tractor, devices located at its end for scaring and catching a whitefly, while the device for catching a whitefly is made in the form of a cap, characterized in that the device for scaring whitefly is made in the form of two resonators, structurally connected to subwoofers, the coils of electrodynamic systems of which are connected to the output of a low-frequency signal amplifier, to the input of which the output of a low-frequency signal generator is connected, while a branch pipe is installed at the top of the cap, connected by a flexible pipe to an ejector, the input of which connected to the exhaust pipe of the tractor, and the outlet is in communication with the environment, while the surface of the inner volume of the hood is yellow, and in the upper part of the hood there is an electric lighting source that emits a yellow luminous flux eta.

The problem to be solved by the claimed invention and the technical result are interconnected as follows.

Implementation of a device for scaring a whitefly located on plants and in free flight in the form of two resonators structurally connected to subwoofers, the electrodynamic systems of which are connected to the output of a low-frequency signal amplifier, to the input of which the output of a low-frequency signal generator is connected, while at the top of the cap is installed a branch pipe connected by a flexible pipe with an ejector, the inlet of which is connected to the exhaust pipe of the tractor, and the outlet is in communication with the environment, while the surface of the inner volume of the cap is yellow, and in the upper part of the cap next to the branch pipe there is an electric lighting source that emits a luminous flux yellow, noticeably reduces the proportion of manual labor, provides ease of use and attractiveness of workers to use such a device in their difficult work to combat whitefly, increases productivity by activating the process of pollination of flowers.

Despite approximately the same (equal) technical effect obtained from the use of an analogue chosen as a prototype, the use of the proposed device is preferable. This is due to a significant reduction in the specific weight of manual labor for performing a number of technological operations (which takes place during the operation of the device according to the prototype), in particular: for transferring the cap from plant to plant, for opening the cap manually on each of its flaps, for manually turning the bell with a built-in it has an electric heater and a rotating blade for manually turning the intake bell. Moreover, in addition to physical efforts to rotate the sockets, physical efforts are expended to hold the pressure and suction pipelines on the weight, connecting the sockets to the nozzles fixed on the air distribution chamber and on the insect collector. One of the main advantages of the present invention is the use of subwoofers with resonators that create low-frequency oscillations of the audio frequency as a device for scaring a whitefly. Such a scientific and technical solution excludes injury to delicate leaves when manually feeding the bells to the plant, which is most likely when workers become physically tired, heating the flower pollen, making it sterile, which ultimately reduces the yield, and vice versa, contributes to the process of flower pollination. even more so cross-pollination.

The features that distinguish the proposed technical solution from the prototype are not identified in other technical solutions and are not known from the prior art in the process of patent research, which allows us to conclude that the invention meets the "novelty" criterion.

According to the results of a study of the prior art in the course of a patent search based on information available in the countries of the former USSR and foreign countries, it was found that the proposed technical solution does not explicitly follow from the current state of the art, therefore, it can be concluded that the proposed technical solution meets the criterion "Inventive step".

FIG. 1, 2, 3, 4 and 5 depict a device for controlling whitefly when processing one row of low-growing plants, while the tractor moves over the row of plants. In particular, in FIG. 1 is a general top view, FIG. 2 - profile projection, general view; in fig. 3 - view A of the profile projection of the device; in fig. 4 is a view of a pipeline connection unit connecting the hood to the tractor exhaust pipe by means of an ejector; in fig. 5 is a block diagram of the electrical part of the device.

FIG. 6, 7 and 8 depict a device for combating a whitefly when alternately processing two rows of tall plants, while the tractor moves in the aisle. In particular, in FIG. 6 is a general top view, FIG. 7 - profile projection, general view; in fig. 8 is a view A of the profile projection of the device.

FIG. 9, 10 and 11 depict a device for collecting and destroying whitefly when growing a number of crops (cucumbers, tomatoes, etc.) during ground creeping formation of rows of plants, while the tractor moves over the row of creeping plants (in the case of a significant width of the creeping row of plants, comparable to or exceeding the track width of the tractor, the latter moves in the row spacing). In particular, in FIG. 9 is a general top view, FIG. 10 - profile projection, general view; in fig. 11 is a view A of a profile projection of the device.

The device (Figs. 1, 2, 3, 4, 5), mounted on a pneumatic-wheeled tractor 1, consists of a manipulator 2, at the end of which a scaring whitefly and a catching device are fixed. The whitefly scaring device contains resonators 3 located opposite each other on both sides of the processed plant 4 and structurally attached to the subwoofer cases 5, to the coils 6 of the electrodynamic systems of which two wires 8 are connected through the first push-button push switch 7 with closing contacts and fixation, connected to the output of the amplifier 9 of signals of low (audio) frequency, to the input of which the output of the generator 10 of low (audio) frequency (25 ... 90 Hz) is connected. Amplifier 9 and generator 10 are connected through the second push-button push switch 11 with closing contacts and latching to the corresponding contacts of the power unit 12.

The device for catching the whitefly contains a cap 14 with a nozzle 15 mounted in its top, which is connected by a flexible pipe 16 to the inlet 17 of the suction chamber 18 of the ejector 19, inside which there is a nozzle 20 connected to the exhaust pipe 21 of the tractor 1. In this case, under the inner part of the cap 14 there are elements 22 (in the form of a sliding rectangular frame attached on one side to the cap 14), 23 (in the form of a curtain, for example, made of polyethylene), 24 (in the form of a frame for attaching the resonator), a hinge 25 (for movable connection of the frames) and a cable 26 for fixing the resonators 3 with the subwoofers 5 behind the cap 14. The angle of the maximum effect of the jets of air flows created by the subwoofers 5 and coming out through the openings of the covers covering the ends of the resonators 3 on the lower parts of the plant leaves is regulated (installed) by means of elements 26 (cables), attached by their upper part to the cap 14, and the lower to the subwoofers 5. In this case, the inner surface of the varnish 14 is painted yellow, and near the branch pipe 15 a source 27 of electric lighting is installed, emitting a yellow luminous flux, which is used as an incandescent light bulb with a yellow glass cylinder (an incandescent light bulb with an operating voltage corresponding to the operating voltage at the output of the amplifier can be used 9, in particular, for example, for 12 V, the cylinder of which is painted with yellow heat-resistant paint), connected to the output of the amplifier 9 of low (audio) frequency signals through the third push-button push switch 28 with closing contacts and the brightness control of the light bulb 27, which is used as potentiometer 29 installed on the front panel of the control unit 13. A change in the amplitude of low-frequency signals arriving at the light bulb 27 causes a change in the brightness of its glow, which makes it possible to track the effect of an increase (decrease) in the amount of whitefly in the upper part of the cap 14 near the branch pipe 15 and, accordingly, to determine the modes for including them in technological maps of plant processing and thereby, increase the amount of whitefly entering the pipe 16 and the ejector 19.

In the ejector 19, the kinetic energy of the exhaust gases heated to temperatures above 200 ° C and moving at high speed is transferred to the air flow carrying the whitefly air suspension through the flexible pipe 16. In particular, the exhaust gases create a reduced pressure in the converging section of the nozzle 20 in suction (mixing the whitefly with exhaust gases) chamber 18, which causes the air mixture (suspension) of the whitefly to be sucked into the flow in the air stream, which then burns and is removed into the open environment along with the exhaust gases. Structurally, amplifier 9, generator 10, switches 7 and 11, power supply unit 12 are located in control unit 13 (which is located in the driver's cab) on the front panel of which switches 7, 11 and 28 are located, as well as potentiometers for adjusting the frequency of low-frequency oscillations at the output generator 10 and amplifier 9 (potentiometers not shown) and potentiometer 29 for adjusting the level of light bulb 27.

The device works as follows. When the tractor 1 approaches the cultivated plant 4, the cap 14 with the resonators 3 and the subwoofers is lowered onto it by the manipulator 2, equipped with a hydraulic control system. After that, the angle of the maximum effect of the jets of air flows created by the subwoofers 5 and coming out through the openings of the covers covering the ends of the resonators 3 to the lower parts of the leaves of plants, the second push-button switch 11 supplies power to the generator 10 and amplifier 9. Then, with the help of regulating elements, which are electrical elements of the generator 10 and amplifier 9 (potentiometers, the control knobs of which are displayed on the front panel of the control unit 13) , set the required (specified according to the technological map) frequency of low-frequency oscillations and their power supplied through wires 8 to the subwoofers 5. After that, the nominal operating mode of the tractor engine is set and the first switch 7 serves power-amplified low-frequency electrical signals to the subwoofers 5, which through resonators 3 supply oscillating air currents to the stems and lower parts of the leaves of plants, where the main part of the whitefly is located. At the same time, the exhaust gases coming from the combustion chamber of the fuel in the engine of the tractor 1 through the pipe 21 create a reduced pressure in the suction (mixing) chamber 18 of the ejector 19 (due to the converging section of the nozzle 20), which creates a vacuum (suction) of the air mass in flexible pipe 16 and the space under the cap 14 connected to it. When the whitefly flaring system is on, the latter is carried away by a stream of air sucking to the top of the cap 14 (which is also facilitated by the yellow colors of the inner surface of the cap 14 and the yellow glow of the bulb 27) and is then carried away by the air flow containing air whitefly suspension, through the pipe 16 into the suction (mixing) chamber 18 of the ejector 19, where hot exhaust gases enter, i.e. the whitefly, located after scaring it with low-frequency vibrations of resonators 3 in the region of the upper part of the cap 14, is carried away by the suction jet created by the jet of exhaust gases. At a high speed of exhaust gases and creating a large suction in the suction chamber 18 of the ejector 19, the exhaust gases and whitefly bodies are mixed, which are burned in the mixing chamber 18 of the ejector 19 and are discharged into the environment.

An autonomous battery, a tractor battery or power supply from the tractor's on-board network can be used as a power supply unit 12. In this case, the elements of scaring (resonators 3 with subwoofers 5) are located from each other at a distance that does not allow mechanical action (contact) to plant leaves, and equal to the width of the rows of plants (for tomatoes and cucumbers through 0.6; 0.7 or 0, 9 m). Resonators 3 with subwoofers 5 in relation to the plant are installed mainly in such a way that the outlet openings of the resonators 3 are directed to the lower part of the leaves of plants 4, the surface of which is predominantly a permanent habitat of the whitefly and allowing its maximum scaring by exposure to air flow , oscillating at a low frequency and performing not only mechanical shaking of the leaves, but also the oscillation of the whitefly with the oscillation frequency of the reciprocating movement of the air flow created at the exit of the resonator.

When processing tall plants (Fig. 6, 7 and 8), the collection and destruction of whitefly is carried out in the same way. Only in this case, at the beginning of the collection process, the whitefly raise the cap 14 above the plant growth, and the elements 22, 23, 24 adjust the plant height and the angle of inclination of the resonators. In this case, the angle of the maximum impact of the jets of air flows created by the subwoofers 5 and coming out through the openings of the covers covering the ends of the resonators 3 on the lower parts of the plant leaves is regulated (set) by means of the elements 26 (cables), similarly to the treatment of stunted plants.

The device without changing the design and technology of collecting the whitefly (except for the choice of operating modes of the low-frequency signal generator and the amplifier of these signals when processing a specific plant species under specific conditions) can be used for growing a number of crops (cucumbers, tomatoes, etc.) with ground creeping the formation of rows of plants both in large greenhouses and in the open field.

FIG. 9, 10 and 11 show the use of such a device for collecting and destroying a whitefly when growing crops with terrestrial creeping plant rows. In this case, the width of the creeping row of plants does not exceed the track width of the tractor and the latter moves over the row. If the width of the creeping row of plants exceeds the track width of the tractor, the latter moves in the row spacings, while in order to prevent damage to the plants by the tractor wheels, the row spacing should be slightly larger than its track.

In this case, the device is prepared for operation as follows.

Resonators 3 with subwoofers 5 and cap 14 of the catcher by means of manipulator 2 give such a spatial position in which resonators 3 with subwoofers 5 are located on opposite sides of the row of creeping plants. In this case, the elements of scaring (resonators 3 with subwoofers 5) of the whitefly are located from each other at a distance equal to the width of the creeping rows of plants (for tomatoes and cucumbers every 0.6; 0.7 or 0.9 m), based on the fact that these (selectable) distances should exclude the contact contact of resonators 3 with the stems and leaves of plants, and the cap 14 is located above the creeping row of plants. Then the engine of the tractor 1 is started in the optimal (required) mode of operation, and the second switch 11 supplies power to the generator 10 and the amplifier 9 of low-frequency oscillations in the following order. First of all, the engine of the tractor 1 is started, and then the generator 10 and the amplifier 9 of low-frequency oscillations, in order to exclude the process of scaring the whitefly before the start of the whitefly suction system into the system of its capture and destruction. Then, on the generator 10, the frequency regulator (potentiometer) sets the corresponding operating frequency (in the range 25 ... 90 Hz), and at the output of the amplifier, the regulator (potentiometer) sets the corresponding power (50 ... 300 W). After that, the device is ready for operation, you can start moving the tractor unit. In the process of movement of the tractor unit in a large-sized greenhouse or in an open field, plants in a creeping row are alternately exposed to an oscillating mass of air flow, which is formed when leaving the resonator into the air volume space between resonators 3 and cap 14 and which scares the whitefly for its subsequent catching ... In this case, resonators 3 with subwoofers 5, directed at the stems and leaves of plants, create an alternating oscillating air flow, which leads them (i.e. leaves) to an alternating (reciprocating) oscillation. Due to such an oscillatory effect of the air flow on the surface of the leaves and on the stems of plants, as well as on itself, being disturbed, it takes off from the plants and, falling into a directional oscillating air flow, is carried away as a suspension into the upper volume of the cap 14, from where it is sucked out with pressure below the atmospheric ejector 19 and is carried away by the latter into the chamber 18, where it burns in the stream of hot exhaust gases.

Thus, the takeoff of the whitefly is carried out without the possible mechanical contact effect of the propelling element (which takes place in the prototype), the role of which is played by resonators that create oscillations of the air flow with the frequency of sound waves. As a result, possible injuries to plant stems, leaves and flowers are excluded. Efficient collection of the scared whitefly is ensured by the dimensions of the horizontally located cap 14 (for example, 2 x 1 m), as a result of which a significant number of whitefly individuals involved in the oscillating air flow is achieved, and, consequently, the amount of whitefly directed into the mixing and combustion chamber increases. As the tractor unit moves (in low gear at a speed of, for example, 4 ... 6 km / h), the whitefly is collected from the leaves and stems of creeping plants and sent to the mixing chamber of the ejector, where it is burned in a stream of hot exhaust gases.

If the workers who set up the device before starting to use it for collecting and destroying whitefly in specific production conditions (type of plant culture, season, temperature, etc.) do not have appropriate practical experience, on the first plants of the processed series by changing the oscillation frequency of the generator 10 and their powers at the output of the amplifier 9 select the optimal operating mode of the device, which ensures the takeoff of the whitefly from plant leaves with its subsequent ingress into the air stream entering the volume of the open space under the cap 14 and then through the pipe 16 into the suction (mixing) chamber 18 of the ejector 19. Positions resonators 3 and cap 14 in height relative to the creeping row of plants and soil level, corresponding to the effective collection of the whitefly, are determined empirically by means of direct measurements in different months of the year in relation to a specific plant species and fluctuations in daily temperatures, on the basis of which technological maps are developed collection and destruction operations of whitefly.

The proposed method for combating whitefly requires less manual costs for its implementation than the prototype, is more comfortable, the device for its implementation is more ergonomic and convenient in operation and maintenance, provides an increase in yields by activating the process of pollination of plant flowers during their flowering with air flows emanating from resonators, is more attractive for workers serving crops of plants, for example, cucumbers, tomatoes and other plants, both in greenhouse and in the field.

Claims (3)

1. A device for combating a whitefly, containing a manipulator, hung on a tractor, located at its end devices for scaring and catching a whitefly, while the device for catching a whitefly is made in the form of a cap, characterized in that the device for scaring a whitefly is made in the form of two resonators , structurally connected to subwoofers, the coils of electrodynamic systems of which are connected to the output of a low-frequency signal amplifier, to the input of which the output of a low-frequency signal generator is connected, while a branch pipe is installed at the top of the cap, capturing the air flow with a suspension in the form of a whitefly, connected by a flexible pipe with an ejector, the inlet of which is connected to the exhaust pipe of the tractor, and the outlet is in communication with the environment. 2. A device for combating whitefly according to claim 1, characterized in that the surface of the inner volume of the cap is yellow, and a source of electric lighting is fixed near the branch pipe, emitting a yellow luminous flux. 3. A method of combating a whitefly, carried out using the device according to claim 1, and consisting in scaring it, catching it and then destroying it, characterized in that scaring a whitefly is carried out by acting on plants and on a whitefly located on plants and in free flight, low-frequency vibrations of the audio frequency, and catching the whitefly - by directing the air flow with suspension in the form of a whitefly into the ejector, the suction chamber of which is connected to the pipe carrying the air flow with the suspension of the whitefly, and the nozzle is connected to the pipe with the tractor exhaust gases.

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