RU2578325C1 - Pest control method and device therefor - Google Patents

Abstract

FIELD: disinsection.

SUBSTANCE: group of inventions relates to destruction of insects. Device for insect control has source of electromagnetic radiation and housing. Housing is made in form of coil. Radiation source is made in form of high-frequency voltage generator. During implementation of insect control method electromagnetic radiation in high frequency currents range is generated. Increased field intensity of emitter to value providing heating insect body to temperature of its destruction. Higher intensity is started from insect approach moment to heating zone. Finished high tension through present time insect death.

EFFECT: expanded functionality and improved operational characteristics is enabled.

9 cl, 3 dwg

Description

The invention relates to agriculture and can be used to kill insects in rooms where animals are kept.

The prototype is a method of combating gadfly, bestial flies, horseflies, which consists in mechanical trapping with the help of traps and baits and funnel-shaped devices located directly inside the traps with walls made of transparent material, while the traps are attached to the posts, shields and walls of the premises 2-5 m high, and fluorescent lamps are used as bait, the burners of which are located near the opening of the funnel-shaped device, each trap is equipped with a relay veto, and the bottom plate, which is mounted on hinge, with downward displacement of [Pat. RF 2311026, IPC A01M 1/04, 2007].

The disadvantages of the prototype are:

- inconvenience in operation caused by the need to maintain the trap, in particular the periodic removal of insects from it;

- limited functionality associated with the capture of only those insects that are attracted to light.

The objective of the invention is to remedy these disadvantages, namely the expansion of functionality and improved performance.

The problem is solved in that in a method of controlling insects, including capturing insects using a trap with an emitter emitting electromagnetic radiation, electromagnetic radiation is generated in the range of high frequency currents, and the emitter field strength is increased to a value that insects the body of the insect to the temperature of its death for a period not exceeding the time that the insects can leave the trap, while the increase in tension begins from the moment the insect approaches the heating zone and ends through the assumption th time of his death.

A coil is used as an emitter. As a bait, an element is used that is heated in the field of high-frequency currents to a temperature that ensures that the element emits infrared radiation in the invisible range. The approach of the insect to the heating zone is recorded by the sensor. The tension is periodically increased in the absence of an insect in the heating zone. The element is performed in a form resembling part of the circulatory system of a living organism. A fiber is used as a sensor.

In the device for implementing the method of combating insects, containing a source of electromagnetic radiation and a housing, the housing is made in the form of a coil. The coil is made in the form of a cavity resonator.

These distinctive features allow you to achieve the following advantages compared with the prototype.

The formation of electromagnetic radiation in the range of high-frequency currents and an increase in the emitter field strength to a value that ensures the insect's body is heated to its death temperature for a period not exceeding the time that the insects can leave the trap, allows insects to be killed by the field of high-frequency currents, the energy of which is absorbed by the water contained in the insects As a result, it becomes possible to heat them strongly from the inside, leading to death. Since the field extends over a relatively large distance and omnidirectionally, the destruction of insects, and of any species, occurs more efficiently, for example, insects can be exterminated when approaching the radiator heating zone almost anywhere. This extends functionality and enhances performance.

The beginning of increasing tension from the moment of the insect's approach to the heating zone and the end after the expected time of its death saves energy consumption, which increases operational characteristics.

The use of a coil as a radiator simplifies the design of the radiator and increases its reliability, which ultimately improves operational characteristics.

The use of an element as a bait, which is heated in the field of high-frequency currents to a temperature that ensures that the element emits infrared radiation in the invisible range, makes it possible to create a convection flow of warm air with a temperature close to the body temperature of the animal. Heat becomes one of the stimuli by which blood-sucking insects are oriented towards the host-host. It is known, for example, that convective streams of warm air coming from a person can have local temperature differences of 1-2 ° C, which is used by mosquitoes when oriented at short distances, while the temperature gradient above the surface of a person’s skin changes from 32 to 34 ° by a distance of more than 40 cm. This improves performance.

The registration of the insect approaching the heating zone by the sensor helps to clarify the position of the insect relative to the emitter, which allows concentrating electromagnetic energy in this place and thereby reduce the field strength as a whole, which saves electricity and improves performance.

A periodic increase in tension and in the absence of an insect in the heating zone allows you to create warm air currents that attract blood-sucking insects by heating the element. This improves performance.

The execution of the element in a form resembling part of the circulatory system of a living organism allows you to create a temperature gradient to which sensitive elements of insects react.

The use of a fiber as a sensor can completely eliminate the effect of electromagnetic radiation on the sensor. This improves reliability and improves performance.

The implementation in the device for implementing the insect control method of the housing in the form of a coil simplifies the design of the emitter and the entire device as a whole, which improves operational characteristics.

The implementation of the coil in the form of a cavity resonator allows you to locally increase the microwave field strength, which ultimately reduces the energy consumed. So, for example, a volume resonator allows you to increase the intensity of the microwave electromagnetic field inside at a frequency corresponding to the resonant frequency of the system, the microwave radiation source is the resonator.

The invention is illustrated by drawings.

In FIG. 1 shows a device for implementing a method of controlling insects using electromagnetic radiation of high frequency currents. In FIG. 2 shows a view A of the device. In FIG. 3 shows a cavity resonator.

A device for implementing an insect control method comprises a coil 1 with a wire 2 on which an element 3 (bait) is placed and a light guide 4 of an insect approach sensor to a heating zone. The coil can be made in the form of a volume resonator 5, in the cavity of which a radiating element 6 of the microwave magnetron 7 is placed.

The method is implemented as follows.

The luminous flux, for example, from the LED enters the left side of the light guide 4 and, passing in the form of rays through the air above the coil 1, through the right side of the light guide enters a photodetector, for example a photodiode (Fig. 1, 2). When an insect approaches the heating zone, light rays intersect, as a result of which a signal appears at the output of the photodetector, according to which a high-frequency voltage, for example, about 10 MHz, is supplied to coil 1 from a generator (not shown). The moisture contained in the insect is heated, and it dies, falling to the floor or into the storage tank installed under the coil. At the same time, heating of element 3 made of electrically conductive material occurs, due to which a convective current of warm air is generated, attracting regular insects, the temperature receptors of which, as you know, react to convection heat - the energy of the molecules of heated air. In this case, the reaction of thermal referendum is characteristic of insects - the ability to gather in the zone of optimal temperature. All this contributes to the active attraction of insects to the trap. After the expected time of death of the insect that has passed since the sensor was triggered, the voltage is removed from the coil. Element 3 can be made of wires in the form of a circulatory system and cover them with a porous material similar to the skin.

In the case of a prolonged absence of insects from the sensor, which does not work, voltage is applied to the coil 1 in order to heat the element 3 and then resume the convective current of warm air.

If the coil is made in the form of a volume resonator 5, then after applying a supply voltage to the magnetron 7, in a very short time, the frequency corresponding to the resonant frequency of the magnetron 1 - resonator system is established, energy is accumulated inside the resonator and the field strength increases to the value that leads to the death of the insect. In this case, death occurs due to the absorption of microwave energy by the water contained in the body of the insect and the subsequent increase in the temperature of the latter.

Note that it takes a very short time to heat an insect in a high-voltage microwave field, since the heat transfer process in the insect body is inertial and there will be practically no real energy loss in the insect due to heat transfer to the external environment.

The implementation of the invention will allow you to create simple in design, easy to use and maintenance-free trap that allows you to destroy any kind of insects.

Claims (9)

1. The method of combating insects, including capturing insects using a trap with an emitter emitting electromagnetic radiation, characterized in that the electromagnetic radiation is formed in the range of high frequency currents, and the field strength of the emitter is increased to a value that insects the body of the insect to the temperature of its death for a period not exceeding the time that the insects can leave the trap, while the increase in tension begins from the moment the insect approaches the heating zone and ends through the expected The burden of his death. 2. The method according to p. 1, characterized in that a coil is used as an emitter. 3. The method according to p. 1, characterized in that as a bait use an element that is heated in the field of high-frequency currents to a temperature that ensures that the element emits infrared radiation in the invisible range. 4. The method according to p. 1, characterized in that the approach of the insect to the heating zone is recorded by the sensor. 5. The method according to any one of paragraphs. 1, 3, characterized in that the tension is periodically increased in the absence of an insect in the heating zone. 6. The method according to any one of paragraphs. 1, 3, characterized in that the element is performed in a form resembling part of the circulatory system of a living organism. 7. The method according to any one of paragraphs. 1, 4, characterized in that a light guide is used as a sensor. 8. A device for implementing a method of combating insects, containing a source of electromagnetic radiation and a housing, characterized in that the housing is made in the form of a coil, and the source is in the form of a high-frequency voltage generator. 9. The device according to p. 8, characterized in that the coil is made in the form of a volume resonator, in the cavity of which a radiating element of a microwave magnetron is placed.

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