BR102021001360A2 - INSECT CAPTURE TRAP WITH REMOTE MONITORING SYSTEM - Google Patents

Abstract

TRAP FOR CATCHING INSECTS WITH OWN FOOD AND NETWORK OF SENSORS FOR MONITORING. It is a trap composed of a container made of rigid material for the constitution of the trap's capture bottle, solar energy plate, low consumption LED light, and ribbons and water with a little soap at the end of the container to immobilize insects for the purpose of catching insects attracted to light. Such a trap is coupled to a network of sensors that allow the reception of data on: battery voltage, humidity, temperature. The data is sent through a Wi-Fi connection through a software that receives data remotely, contributing to the identification of the best collection times in addition to the identification of intercurrences during the period of use. Technical sector of the invention: A01M 1/00; A01M 1/10; A01M 1/04; A01M 1/02 ; A01M 1/22; A01M 5/00; A01M 5/02.

Description

INSECT CAPTURE TRAP WITH REMOTE MONITORING SYSTEM FUNDAMENTALS OF THE INVENTION FIELD OF THE INVENTION

[001] The present invention refers to the development of a trap with its own power supply, with a technological support system; remote system by telemonitoring, measuring levels of temperature, battery, and the activation of lights. The lights are LED with relatively high electrical source, it is also used the addition of contained spaces of liquid comprising attractive shapes for insects, as recommended the use of concentrated soap or detergent to facilitate the capture of insects arising from the device. The product falls within the international classification of patents in the fields of invention A01M 1/00; A01M 1/10; A01M 1/04; A01M 1/02 ; A01M 1/22; A01M 5/00; A01M 5/02.

DESCRIPTION OF THE STATE OF THE TECHNIQUE

[002] Several pathologies are transmitted from arthropods to animals, such as dengue, Chagas disease, malaria, among others. Thus, control strategies have been proposed aiming at the eradication of diseases transmitted by vectors. Traps are one of these control options, reducing their number of vectors in the place where they will be placed. In this way, traps can harvest insects or just capture them, so that they can be used as food by other animals or to prevent the spread of diseases (BURROWS, KAYE, SHAPLAND, 2000) BURROWS, John Allen; KAYE, Mathew Varghese; SHAPLAND, Paul. Trap for catching insects. U.S. Patent no. 6,108,965, DEPOSITOR: Brandenburg UK Ltd. DEPOSIT: 04/03/1998. CONCESSION: 08/29/2000

[003] The use of insect traps can still be used in plantations, given that pest control can reduce the presence of production losses, since several species of insects use crops as shelter or food source( WRIGHT, William. Luminous insect trap. U.S. Patent No. 8,978,290, March 17, 2015. US8978290B2 DEPOSIT: 04/22/2011. GRANT: 03/17/2015). The ways of capturing insects, such as traps, can work in different ways of attraction, such as: photoelectric signals, chemical signals or by prey mechanism (KIM, Jong Rack et al. INSECT TRAP USING UV LEDS. Patent Application Publication. 27 Sep. 2018. US2018271080A1 DEPOSIT: 06/30/2015). In other patents, forms of capture by light work with good accuracy, facilitating the capture of these beings. One of the mechanisms with good effectiveness is that of containers with water, where the insect suffers greater difficulty in locomotion, leaving it trapped in a liquid substance (KOLLARS JR, Thomas M. et al. Insect/arthropod trap. U.S. Patent n. 6,920,716, 26 Jul. 2005. US6920716B2 DEPOSIT: 09/30/2002. CONCESSION: 07/26/2005).

[004] The processes, when sustainable, make the product more autonomous, bringing independence in its operation. Obtaining renewable energy, and not needing humans present, makes the product's quality increase by becoming more autonomous, as in the case of solar powered operation (LIN, Chin Kuo. Solar Powered Insect Trapping and Terminating Apparatus. U.S. Patent Application No. 11/456,576, Jan. 17, 2008. DEPOSIT: 2006-07-11).

[005] Products that use light as a way to attract insects and the presence of a photocell make the mechanism economical. There is a control in energy expenditure, because through a sensor, artificial light is activated when it perceives the absence of natural light in the environment, turning on only at night (JOBIN, Luc; COULOMBE, Charles. Portable luminous insect trap. U.S. Patent No. 5,301,456, April 12, 1994. US5301456A. DEPOSIT: 08/29/1991. CONCESSION: 04/12/1994).

[006] Some insect capture devices have used removable light source centrally positioned at the entrance with power means and electrical circuit to supply power to said light source with removable 6 volt flashlight battery sources to energize, providing up to 38 days for operation up to 4 hours per night (JOBIN, Luc; COULOMBE, Charles. Portable luminous insect trap. U.S. Patent No. 5,301,456, Apr. 12, 1994. DEPOSIT: 08/29/1991. CONCESSION: 04/12/1994 ). Thus, the lights of tubular fluorescent lamps are turned on in response to darkness to attract insects. In addition, other traps such as the one highlighted for capturing triatomines also use a lamp that is lit at night, however, they use a cadmium battery with a source of energy from sunlight (DIAS, João Victor Leite et al. Capture of Triatoma arthurneivai (Hemiptera: Reduviidae) using a new luminous trap in Southeast Brazil. Revista da Sociedade Brasileira de Medicina Tropical, v. 44, n. 6, p. 774-776, 2011).

[007] Other insect traps use features with electrical energy sources from solar cells and rechargeable batteries to charge the solar cells, including an electrical light source comprising removable light-emitting diodes (LED) being the same light source relatively high for attracting insects(WRIGHT, William. Luminous insect trap. U.S. Patent No. 8,978,290, March 17, 2015. DEPOSIT: 04/22/2011 GRANT: 03/17/2015) . Another invention for capturing insects refers to a trap also using light energy from LED light. However, it uses chemical attractant resources to facilitate the capture of insects. Therefore, some inventions use resources in addition to light energy to facilitate the attraction of insects (SCHNEIDMILLER, Rodney G. Insect trap. U.S. Patent n. 6,910,298, 28 jun.2005.DEPOSIT:23/07/2003.CONCESSION:28 /06/2005).

[008] Another technique uses adhesive material to facilitate the process of capturing insects in your trap, increasing the capture efficiency, since the double-sided transparent adhesive would affect the walls of the container (LIN, Chin Kuo. Solar Powered Insect Trapping and Terminating Apparatus. U.S. Patent Application No. 11/456,576,17 Jan.2008. DEPOSIT: 7-11-2006). This can make entomological identification difficult, because when coming into contact with the adhesive tape and when removing insect structures, they will suffer fragmentation, which can make it difficult to identify the species and genus.

[009] In this way, descriptions of techniques in trap inventions for capturing insects with luminosity from LED light, have also used attractive chemical resources for facilitation, in addition to other technical resources such as wires made of a material that includes at least one made of polypropylene, nylon, acrylic and ethylene vinyl acetate to aid in the process (SCHNEIDMILLER, Rodney G. Insect trap. U.S. Patent No. 6,910,298, 28 June 2005. DEPOSIT: 07/23/2003.GRANT: 06/28/2005 ).

[010] In view of the state of the art mentioned above, the trap presented here and for which patent protection is being requested is composed of a cylindrical container of rigid material for the constitution of the trap capture bottle, with a solar energy plate, light LED lights, and ribbons and water with a little soap at the end of the container to immobilize the insects. However, we emphasize that the basis of the inventive step of our trap lies in its coupling to a remote monitoring system, which allows the monitoring of various parameters such as: brightness index, battery charge, lights on or off, temperature and humidity. , in order to verify, from a distance, the conditions of the equipment and the environment. In the prior art we did not find insect traps with a similar configuration.

SUMMARY OF THE INVENTION

[011] The present invention refers to a trap that uses LED light powered by battery and activated by a photocell. The light is controlled by a photosensor, which senses the absence of light and triggers the light switch. The aforementioned mechanism is based on attracting the attention of insects, which aims to hold beings with water retained at the bottom of the container. The trap is coupled to a remote monitoring system, capable of evaluating environmental conditions (temperature, luminosity and humidity), in addition to the battery power level, which allows the use and monitoring of the equipment at a distance.

DETAILED DESCRIPTION OF THE INVENTION

[012] The development of the insect trap with a remote monitoring system uses software specifically developed in accordance with the need, making it possible to identify the luminosity index, battery charge, lights on or off. Such software will have its required protection through software registration. Our trap will be remotely assisted via the internet, making it possible to implement the feature both in rural and urban regions.

[013] The trap has SHT21 type sensors capable of monitoring a variety of environmental conditions such as: humidity and temperature, allowing that even at a distance, we can know the ideal time to make a collection, through the use of a CMOSens® chip of the generation 4C. In addition to the capacitive relative humidity sensor and the band-gap temperature sensor, the chip contains an amplifier, A/D converter, OTP memory and a digital processing unit.

[014] Next, we present the general diagram of the developed circuit.

[015] A container built with rigid material was wrapped with LED light strips in order to attract insects by the light emitted by the installed LEDs. With the aim of conserving energy for the automatic lighting of the lights at the end of the day, a photocell was coupled primary switched source 220Vac secondary 12Vdc x 1a, Sensor type: Light dependent resistor, LDR type developed specifically for this project.

[016] The entire electrical system is powered by a 12v 7ah battery, with its charging system power via solar energy via a silicon panel.

Brief Description of Figures

[017] Figure 1 - Side and top view It is possible to identify all the elements present in the trap such as: solar plate (1), handlebars (2), acrylic protection box (3), bucket (4), display (5) ), photocell (6), battery (7), led strip (8), support board (9), front caster (10), rear caster with lock (11), solar panel support rod (12) .

[018] Figure 2 - Front and rear view, making it possible to identify all the elements present in the trap such as: solar plate (1), handlebars (2), acrylic protection box (3), bucket (4), display (5) ), photocell (6), battery (7), led strip(8), support board (9), front castor (10), rear castor with lock (11), solar panel support rod (12).

EXAMPLES

[019] EXAMPLE 1 - Test carried out in urban area in the municipality of Mossoró, state of Rio Grande do Norte, in the late afternoon at 5:00 pm until 5:30 am the next day. The equipment was installed in a deforestation area. The area was chosen for having a greater amount of insects, since they are having their space invaded by man through the construction of residences and industrial companies.

[020] The traps can be used in the most diverse ways be it: aerial, on the ground or on some surfaces.

[021] During the night, the LED lights were activated by the photocell, both powered by the battery, making it possible to carry out remote monitoring of the situation in which the technological resource was during its period of operation. At around 4 am, the LED lights showed an inconsistency related to the battery charge, also presenting an average climate variation of 22°C to 18°C between 00h to 05h in the morning and a humidity of 42%.

[022] By removing the capture resource, it was possible to identify the presence of insects of the most diverse species, including butterflies, culicidae (muriçocas) and beetles.

[023] EXAMPLE 2 - Test carried out in the rural area of the municipality of Marcelino Vieira, state of Rio Grande do Norte, in the late afternoon at 5:30 pm and extending until 5:00 am. The equipment was installed in peridomiciliary areas, chicken coops and close to sugarcane juice mills. During the night, the LED lights were activated by the photocell, both powered by the battery. Remote monitoring of the situation in which the trap was found during its period of operation was carried out. The implemented equipment had its full operation without any complications, with a climate variation between 23°c and 21°c between 00h to 05h in the morning respectively and an average relative humidity of 38%.

[024] When searching for the trap in the early morning, it was possible to identify the presence of some insects such as culicidae, butterflies, triatomines and other insects that were attracted to light.

Claims (6)

Trap for capturing insects, characterized by comprising a container composed of rigid material for the constitution of the trap's capture bottle, a mechanism for attracting and trapping insects, low consumption LED lamps and rechargeable battery-coupled photocells, in addition to sensors for reception of data on humidity, temperature, external luminosity (environment), battery voltage, which are processed by means of chipset and processed for emission of data via Wi-Fi. Trap for capturing insects, according to claim 1, characterized by comprising sensors of the SHT21 type capable of monitoring environmental conditions of humidity and temperature and a luminosity-dependent resistor Trap for capturing insects, according to claims 1 and 2, characterized in that it comprises a 12v 7ah lithium battery, with its system energy charging through solar energy through voltage plates that are composed of an aluminum frame, special glass , EVA encapsulant, photovoltaic cells, backsheet and junction box. Trap for capturing insects, according to claims 1 to 3, characterized in that it comprises an amplifier chip, A/D converter, OTP memory and a digital processing unit. Trap for capturing insects, according to claims 1 to 4, characterized in that it comprises a telemonitoring system, with emission of environmental data and the equipment itself via wi-fi. Trap for capturing insects, according to claims 1, characterized in that it comprises a space intended for the addition of chemical or adhesive substances to attract and capture insects.

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