RU2520277C2 - Device for trapping locusts - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture, and is intended for locust control by trapping adults. The device for trapping locusts comprises a light decoy, a receiver-socket, a collector of caught insects, an independent power source, a control unit and a microwave magnetron. The independent power source is used as a light-rechargeable battery and the controller of accumulator charge. The input of the control unit is connected to the sensors of the presence of insects, the presence of human, rain and light. The output of the control unit is connected to the light indicator, microwave magnetron, lightning discharger and earth conductor. The lightning discharger and earth conductor are connected to each other. The safety of operation of the device is ensured.

EFFECT: increased efficiency of trapping.

2 tbl, 2 dwg

Description

The invention relates to the agricultural field and is intended to control locusts by catching adults.

The most effective way to control locusts is to catch them at an age capable of laying eggs. As a rule, the locust has the ability to fly (gets on the wing) and is the most dangerous pest common in large areas. Other effective control methods that do not lead to undesirable environmental impacts do not exist. The high cost of pesticides and aviation processing and the low efficiency of their use led to an increase in the locust population in the southern regions of Russia and Kazakhstan, which caused a threat to the agriculture of these regions.

Known devices for the destruction of insects, the operation of which in the dark is provided by an autonomous source of electricity based on the use of solar panels and a battery that is charged in the daytime. The autonomy and mobility of such devices showed high efficiency and in some cases provided a complete rejection of the use of pesticides in the fight against insects.

A device for controlling insects is known, for the destruction of which a method of luring insects with a light decoy in the dark is used, which is formed by a source with a wide spectrum of electromagnetic radiation: from ultraviolet to visible with the use of energy-saving lamps or LEDs. The defeat of insects occurs by a discharge of current in the interelectrode zone located around the light mank. The autonomy of the use of such a device is ensured by the use of a solar battery and a battery with a charge circuit.

So, according to the patent of the People's Republic of China No. 101228862 Classlucations International - MKI: А01М 1/22; A01M 1/04 Solar-powered energy-savingbroad-spectrum insect killer - economical wide-spectrum solar power plant for insect killing CN 200810101060 filed auto WenZiheng - Vienna Qiheng applicant Beijing Solaryoung Solar Energy Technology Co., Ltd. Beijing Solar Energy Technology Company from 27-Feb-2008.

The insect killing device is made in the form of vertical electrodes and a grid around a light decoy. When this zone gets hit by an electric discharge with a voltage of more than 2000 volts, insects enter the conical socket and then into the storage hopper.

The disadvantages and limitation of the applicability of such a device include the impossibility of its practical use for large insects, such as locusts, since insect remains block the operation of the device when it enters the interelectrode zone.

There is also a known method and device in which a laser is used to kill insects in the area of their accumulation, for example around a light decoy: - US Patent No. 5,343,652. Method and Apparatus for laser pest control - Method and device for the laser extermination of insects, int. Cl — MKI; A01M 1/20 dated September 6, 1994. Author W. Dudley Jonson. Dudley Johnson, W.

The device uses a method of exterminating insects with a laser beam in a zone of probable location, for example, around a light decoy.

The disadvantages of such a device are its technological complexity and high cost and operating costs.

A device according to the patent of the PRC Identifying No. 101606515 dated December 23, 2009 Solar-power automatic insect killer and insect killing method - an automatic insect control device with a solar battery and an insect killing method CN 200910181477 filedon 17-Jul-2009 MKI A01M / 22, A01M / 04, H02N 6/00, H02J 7/00, Inventors author: Tong Zhonglin Tong Zonglin, Arrlicants applicant: Yangzhou Fangzheng Tianrui Electronic Technology Co., Ltd. - Yangjow Tianrui Electronics Technology, which consists in the fact that in accordance with the claimed method, insects at night under the influence of a light decoy, visible from afar at night, consisting of at least 2 energy-saving lamps of purple and yellow light, are collected in its vicinity . To organize the automatic operation of the device, a high-voltage electric arrester is located in the light mank zone, which strikes a plasma insect harness when touching the mesh electrodes. Immobilized insects fall into the container, passing through the bell.

The disadvantage of this device is that insects similar in size to the locusts, as a rule, clog the grid, closing the electrodes, the device cannot continue to function and turns off.

A device is chosen as the closest analogue - a mobile electro-optical INSTALLATION FOR DESTRUCTION OF FLYING INSECTS according to the patent of Russia No. 2151129 of December 25, 2007.

A mobile electro-optical installation for killing flying insects contains a collection of insects, an attacking organ, a source of attracting optical radiation and a power supply. A magnetron located above a collection of insects was used as the damaging organ. The attracting radiation source is made in the form of LED lines, consisting of ultraviolet, blue, green, yellow, red and white ultra-bright light-emitting diodes. The power supply unit consists of series-connected: an electric generator, a rectifier, a molecular energy storage device and a frequency converter, to which a magnetron and light-emitting diodes are connected.

The disadvantage of this device is that the affected insects that fall into the container during radiation of a magnetron located above the insect collection are repeatedly exposed to microwave concentrated exposure. This leads to their carbonization and the impossibility of further use, for example, as protein feed or raw materials for subsequent production and processing, and the possibility of a negative impact on a person from a microwave field during operation is not ruled out.

During the autonomous operation of similar devices, it was also noticed that during a thunderstorm they fail due to the destruction of solar panels and lightning discharge control units. In some cases, devices are subjected to acts of vandalism. During the operation of similar devices, emergency situations also occurred when the operator was hit by a high-voltage voltage or microwave field when it was located directly near the device.

The proposed device is devoid of these disadvantages.

The objective of the proposed device is to increase the efficiency of locust capture with the possibility of its use and its safe operation.

The problem is solved due to the fact that in the claimed device, the capture of adult locusts in the area of the light semolina formed by the electromagnetic radiation source is effected by exposure to a complex of electromagnetic radiations from the light semolina and microwave radiation from a magnetron located on the side surface of the socket, along which insects enter the drive. The claimed device includes: a control unit, an autonomous source of electricity, consisting of a solar battery, a battery charge controller and a battery supplying a control unit and an inverter, a light decoy formed by an electromagnetic radiation source, sensors are connected to the input of the control unit: the presence of insects in the light decoy area rain and light. The device also has a bell, a drive for catching insects, and there are differences in that an additional sensor for determining the presence of a person in the device zone is connected to the input of the control unit, and a warning light indicator of the operation of the installation for insect damage is connected to the output of the control device. In this case, the microwave magnetron is mounted on the side surface of the socket, made in the form of a conical receiver. The device also has a lightning conductor and an earthing switch connected to each other.

The essence of the device is as follows.

To infect locusts, non-contact effects on insects are used - luring into the zone of action of microwave radiation from a magnetron with a light decoy located above the bell and the container.

The achievement of the technical result is carried out using a microwave magnetron, in which there is a short-term exposure to electromagnetic radiation on insects, immobilized insects through the socket freely enter the container. The absence of any protruding parts blocking the movement of insects ensures high reliability of the installation. The magnetron is mounted directly on the conical bell, high-frequency waves emerging, repeatedly reflected from the walls of the bell, cover the entire space in the light decoy area and hit insects that have got there. Significant energy savings are ensured by the short-term connection of the magnetron from 0.1 s to 2 s, and its inclusion upon command from the sensor for the presence of insects in the light decoy area, which is triggered when 50 or more insects get there at the same time.

The presence of a causal relationship between the totality of the essential features of the claimed object and the achieved technical result is shown in table 1.

Table 1 Types of technical result and their dimension Actual or Estimated Indicators Explanation, due to which (distinguishing feature and / or their combination), it became possible to improve the performance of the proposed object in comparison with the prototype prototype the claimed object Energy saving during magnetron operation,% 10-15% one hundred% Locust trapping is carried out by short-term exposure to them by electromagnetic microwave radiation from a magnetron that infects insects in the light mank zone when an insect presence sensor is triggered. The impact on insects is single, impulsive, only with mass accumulation in the light decoy area The safety of captured locusts in the zone of the light semolina while in the container,% 10-15% one hundred% Locust capture is carried out by exposure to electromagnetic microwave radiation, in which there is a restriction of mobility in insects. When immobilized insects get into the container, further exposure to microwave radiation, unlike the prototype, does not occur. The use of a microwave magnetron mounted on the side surface of the socket, made in the form of a conical receiver, allows you to instantly paralyze and catch insects when they hit the light decoy area above the socket and then place them in a container

The task and achievement of the technical result are solved due to the fact that the claimed device contains: a control unit, an autonomous source of electricity, consisting of a solar battery, a battery charge controller and a battery, a power supply control unit and an inverter, a light decoy formed by an electromagnetic radiation source, to the input sensors are connected to the control side: the presence of insects in the area of light decoy, rain and light. The device includes a bell in the form of a cone receiver, a drive for caught insects, and there are differences in that an additional sensor for determining the presence of a person in the device zone is connected to the input of the control unit, and a warning light indicator of the operation of the installation for insect damage is connected to the output of the control device . A microwave magnetron is mounted on the side surface of the cone receiver, and there is also a lightning rod and an earthing switch connected to each other.

The presence of a causal relationship between the set of essential features of the claimed object and the achieved technical result is shown in table 2

table 2 Types of technical result and their dimension Actual or Estimated Indicators Explanation, due to which (distinguishing feature and / or their combination), it became possible to improve the performance of the proposed object in comparison with the prototype prototype the claimed object Mass locust capture,%, and device stability 10-15% one hundred% The installation of a microwave magnetron on the lateral surface of the socket ensured the guaranteed capture of such large insects as locusts, and the socket and the container into which immobilized insects enter unhindered, do not clog and do not block the operation of the device. Affected insects are not additionally exposed to microwave and do not undergo destruction Ensuring safe operation,% 0% one hundred% The use of a human presence sensor and a light indicator of the operation of the installation makes it possible to protect the operator's activity Ensuring safe operation,% 0% one hundred% The lightning conductor and grounding conductor, interconnected, ensure the installation's lightning protection and guarantee its safe operation

The invention allows the capture of locusts during the summer until the laying of eggs, and in a way that does not violate the integrity of the insect. The main difference from the analogue is that the device according to the invention provides the possibility of its operation in autonomous mode for catching such large insects as locusts, for which a bell and a container are used, into which immobilized insects enter freely, without clogging these devices, and are not exposed secondary exposure to the microwave field.

In addition, the device, unlike the analogue, is equipped with devices for safe use: a lightning rod and grounding, a remote on-off unit and a GPS system - GLONAS remote monitoring.

The possibility of carrying out the claimed invention is shown by the following examples.

The installation of a microwave magnetron on the lateral surface of the socket provided a guaranteed capture of such large insects as locusts, without the secondary exposure of microwave radiation to captured insects. A microwave magnetron 15 is mounted on the side surface of the socket 16. Such installation of the magnetron provides multiple reflection of microwave radiation from the inner surface of the socket body with a concentration of microwave radiation in the area of the light decoy 15 and provides guaranteed damage and capture of such large insects as locusts. The bell 16 and the container 17 in the form of a bag, for example, into which immobilized insects fall unhindered, are not blocked by insects and do not block the operation of the device. When the light decoy 14 is located within the body of the ceiling 13, when locusts get there, a sensor 12 is activated, for example, a photo sensor that responds to dimming, the signal from which is fed to the input of the control unit 8, to the output of which a magnetron 15 is connected.

The proposed device consists of a vertical rack 1, on which is placed a solar battery (SB) 2 with a movable bracket 3 to optimize the angle of inclination of the plane of the battery. At the base of the rack are a charge controller 4 and a battery 5, an inverter 6 and a GPS system unit - GLONAS 7. A control unit 8 with electrical components is located at the base of the vertical rack. To ensure automatic operation of the device, day-night sensors 9, a human presence sensor 10, which ensures a guaranteed shutdown of the locust damage device when the operator approaches the device, and a humidity or rain sensor 11 that disconnects the device in rainy are fixed on the lower face of the SB weather, as well as a sensor for the presence of insects 12 in the zone of light decoy. The light decoy itself consists of a canopy 13 and lamps 14, a microwave magnetron 15 is installed on the side surface of the bell 16. Affected insects enter the bell and then into the container 17. To ensure electrical safety requirements, the device has remote control for turning on and off the insect damaging device - sensor 18 and the remote control 19. When the insect damaging device is turned on, the red indicator lamp 20 lights up. The device is equipped with a lightning rod 21, grounding pin 22, which guarantees lightning protection and its reliable operation. The control unit is located in the housing 23 with the above-mentioned elements of the system - charge controller 4, battery 5 and inverter 6, GPS unit - GLONAS 7.

The above structural elements are made as follows:

1 - Vertical stand - a metal pipe with galvanized coating.

2 - Solar battery - 2 solar panel panels with a glass surface, with a direct current generating power of 50 to 100 watts.

3 - Mounting unit of the solar battery - swivel joint with clamping device.

4 - Solar charge controller - serial electronic device.

5 - Battery - a standard electrochemical source of direct current.

6 - Inverter - a standard converter of direct current to alternating current for the operation of a microwave magnetron.

7 - GPS unit - GLONAS - an electronic device for determining positioning.

8 - The control unit is made in accordance with the operation of the device according to various options.

9 - “Day-night” sensor - a light sensor to turn on the device in the dark and turn off the device in daylight.

10 - Human presence sensor - a standard electronic device.

11 - Humidity sensor - a standard electronic device that works when it rains.

12 - The insect presence sensor in the decoy area - a standard photo-optical sensor for detecting the presence of locusts at a light source.

13 - The body of the lampshade - plastic or glass translucent, domed.

14 - Light-bulb lamps energy-saving or LED with minimal energy consumption, standard, with a long wave attracting insects.

15 - microwave magnetron - a standard microwave magnetron with a switching power supply (from a microwave microwave oven, for example, with a consumption of 400 to 900 watts).

16 - The body of the bell - galvanized sheet, with an angle of inclination of the side surface of 30 °.

17 - Container for caught insects - polypropylene bag.

18 - Remote radio key receiver - a typical sensor-receiver triggered by a radio signal.

19 - Remote radio on / off - a typical radio signal transmitter for switching the radio key on / off.

20 - Installation operation indicator - red LED lamp, indicating a danger.

21 - Lightning rod - a metal pin, mechanically mounted on a vertical rack with a minimum value of electrical resistance.

22 - Grounding pin - an anchor screw screwed into the ground with fastening in the upper part to a vertical rack.

23 - The control unit housing - a rectangular cabinet with elements of the control unit and auxiliary equipment.

The locust control device described above is used as follows.

When placing devices in a zone of mass accumulation of locust capable of flying, the maximum number of insects is calculated to determine the possible amount of effective removable capture for a period of 6 hours of dark time of the day.

The device, installed on an area of 0.5 ha, can catch from 1 to 2 kg of adult locusts in 1 hour, and during the shift from 6 to 12 kg or taking into account the average weight of an adult insect 10 g of 1200 g. Thus, the frequency of operation of the device in automatic mode is from 3 to 5 minutes. A single volume of locust caught averages 50 insects. The volume of the container is calculated on average for 10-12 kg of insects.

The locust trap is installed vertically, the plane of the solar panels is set with an inclination to the horizon of 30-35 degrees with an orientation to the south. In the daytime, solar panels charge the battery through the charge controller and power the control unit, the sensors of the device and then the system operates in standby mode. During the day, the operation of the defeat devices — the microwave magnetron — is blocked from the day-night sensor.

The operation of the device in automatic mode begins with the onset of darkness or during the day with the inclusion of the remote control in test mode. At the same time, the control unit analyzes the state of the sensors, and when evening time comes from the day-night sensor, the light bulb lights up. When insects get into the illuminated zone of light decoy in an amount sufficient to trigger the locust presence detector, a microwave magnetron is turned on, the affected insects freely fall into the socket and then into the container. A striking effect in the light mank zone is an electromagnetic microwave effect on the nervous system of insects: water molecules, experiencing such an effect, are broken by bonds and block the locust mobility.

Claims (1)

A device for catching adult locusts in the area of the light decoy formed by an electromagnetic radiation source, having: a control unit, an autonomous source of electricity consisting of a solar battery, a battery charge controller and a battery supplying a control unit and an inverter with a microwave magnetron connected to it, with by means of which a damaging effect on the locust is carried out, characterized in that the sensors are connected to the input of the control unit: the presence of insects in the area of light decoy, rain and illumination and, as part of the device there is a conical receiver-socket and a drive for caught insects, an additional sensor for determining the presence of a person in the device zone is connected to the control unit input, and a warning light indicator of the operation of the insect damage installation, a microwave magnetron mounted on the control unit output, is connected the side surface of the cone receiver, as well as a lightning rod and ground electrode connected to each other.

Images