BR102017000145B1 - AEDES INSECT TRAP DEVICE - Google Patents

Abstract

AEDES INSECT TRAP DEVICE. The present invention is inserted in the field of health sciences and describes a trap device for attracting, capturing and exterminating Aedes insects, especially the mosquito of the Aedes aegypti species, based on attraction by LED light (8) at blue wavelengths. , in the green (peak of greater attraction sensitivity) and in the yellow and in the suction by reverse ventilation (12 and 18) for capture, and for the use of the electric grid (4 and 19) for the death of the mosquito.

Description

FIELD OF THE INVENTION

[0001] The present invention is inserted in the field of health sciences and describes a trap device for attracting, capturing and exterminating Aedes insects, preferably the female mosquito of the species Aedes aegypti, based on attraction by LED light emitted at wavelengths specific, between the blue and yellow of the visible spectrum, with the emission peak in the green, and in the suction by reverse ventilation for capture, and by the use of the electric grid for the death of the insect.

FUNDAMENTALS OF THE INVENTION

[0002] The Aedes aegypti mosquito is the main vector of the etiological agents of dengue, Zika, yellow fever, chikungunya fever and Mayaro fever. Since there are no vaccines or effective therapies for these viruses, combating the vector remains the main way to prevent the spread of these diseases.

[0003] The control and eradication strategies of Aedes depend, fundamentally, on the knowledge of their habits, in order to establish environmentally clean and more specific techniques targeting the physiological particularities of the insect in the environment in which they live and reproduce, the control selective.

[0004] One of the easy and reasonably efficient ways to exterminate the Aedes aegypti mosquito is the use of low-voltage electrical exterminators, of the “tennis racket” type, which can be handled by an individual who identifies the presence of the mosquito. mosquito in the environment. Such an approach is dependent on the individual's motor skill and visualization of the mosquito, sometimes difficult, in order to exterminate the insect by shock.

[0005] Physiologically, mosquito species are attracted to light at different wavelengths, but this has been little explored in the making of capture traps, as ultraviolet light is basically used as a general attraction pattern. This sensitivity can be influenced by several factors such as the color and intensity of the light emitted, as well as the shape, size, contrast and texture of the trap. These factors, alone or in combination, have already shown in the entomological literature some influence on the female of Aedes aegypti in the choice of hosts or a source of egg deposition. Another disadvantage of ultraviolet light is that it strongly attracts many insect species.

[0006] Despite having diurnal habits, the female of Aedes aegypti has bimodal light sensitivity, in the ultraviolet and in the visible spectrum, but the highest sensitivity range of the retina occurs in the wavelengths between blue and yellow of the visible spectrum, with the sensitivity peak in the green.

[0007] Therefore, the present invention discloses a low voltage electrical trap device, with aspiration system by ventilation unit and attraction by LED light, in the range of maximum visual sensitivity of the female of Aedes aegypti, between the lengths of blue and yellow wave, in order to serve as a control tool, in the elimination of the vector and, consequently, in the reduction of contamination by the Zika, Dengue, Chikungunya, Yellow Fever and Mayaro viruses. This trap device is embedded in the concept of clean technology, an invention for mosquito control and extermination that does not cause environmental pollution and acts on mosquitoes resistant to chemical insecticides.

STATUS OF THE TECHNIQUE

[0008] The American document US 2014/0352200, describes a device to kill insects through fluorescent light and electrical circuit. This document differs from the present invention in that it does not have the capture of the mosquito through a ventilation mechanism.

[0009] The Brazilian utility model BR 20 2013 002389 8, describes a system to capture mosquitoes, where they are attracted with “baits” and placed inside the trap. The mosquito is exterminated through a shock given by an electric fence present in the system. This document differs from the present invention due to the presence of a drawer used as a support for baits, such as water and food scraps, and the absence of an aspiration/suction capture system.

[00010] The Brazilian document PI 0803211-4, describes a system for exterminating Aedes aegypti mosquitoes, in which it is attracted by odor emitters and purple lamps. The trap comprises the attraction of the mosquito and extermination through shock given by an electric screen. Despite citing the use of lamps that emit light at an attractive frequency for the mosquito, such as the present invention, the document does not have a suction/aspiration system, thus differing from the present invention.

[00011] Utility model document MU 8800698-0 describes a trap system in which the mosquito is attracted by lights emitted by a lamp, being dragged by a current of air, coming from a fan installed in said trap. The mosquito is then taken to an insect retention screen which can be fitted with insecticidal adhesive material. This document describes the use of lamps that emit attractive lights and a fan, however, it differs from the present invention, as it does not comprise a circuit containing an electric shock aimed at the extermination of the mosquito.

[00012] Chinese document CN204860711 describes a multifunctional device for killing mosquitoes. Although the document analyzed here comprises an ultraviolet lamp, and an electrical circuit aimed at killing the mosquito, the present document differs from the present invention, as it does not have a suction/aspiration system aimed at capturing the mosquito.

[00013] The document CN104521925 describes a trap for mosquitoes, where they are attracted by an ultraviolet lamp and receive a shock from an electrical network, while being sucked by a fan into a storage bag. This document also differs from the present invention by not using light in the visible range.

[00014] Resistance to chemical insecticides by insects and environmental contamination caused by these chemicals have been two major obstacles in vector control, and the present invention presents itself as a very promising control tool, since it does not cause environmental pollution and controls mosquitoes resistant to chemical insecticides.

[00015] According to the prior art documents shown above, they are not similar to the present invention, since it reveals an innovative device for electro-electronic control specific to the female of Aedes aegypti, through attraction, capture and extermination of this species of mosquito, being safe and practical to install to the electrical network, without any damage to the environment.

[00016] The product in question has low production cost and still uses the innovative LED light source of high performance, low maintenance cost and greater longevity of use. In addition, the present invention can be considered as a clean technology product, and is configured as a safe vector control trap, from a biological point of view, as it preferentially exterminates the female mosquito in an electrically energized low voltage metallic grid. .

[00017] It is also safe, from a structural point of view, because the electrical metal grid energized with low voltage, which can cause shocks, is protected by the plastic box, thus avoiding the reach of children, domestic animals and others.

SUMMARY OF THE INVENTION

[00018] The present invention discloses a trap device for attracting, capturing and exterminating insects of the genus Aedes, especially the mosquito of the species Aedes aegypti, based on the attraction of LED light at specific wavelengths, between the blue and yellow of the visible spectrum, with the peak of sensitivity in the green, in the suction by reverse ventilation for capture and by the use of the electric grid protected for the death of the mosquito.

BRIEF DESCRIPTION OF THE FIGURES

[00019] The present invention can be better understood through the brief description of the following figures:

[00020] Figure 1 presents the insect trap device, comprising frame (1) of the grid, horizontal rods (2), which prevent access or contact with the inside of the trap, without representing a blockage to the passage of light or to the entrance of the mosquito and clips (3) of the grid for fixing to the body of the trap.

[00021] Figure 2 presents the insect trap device, comprising electric grid support frame (4), electric grid (5) and the fixing clip (6) of the grid on the trap body. This figure reveals the electrical metal grid energized with low voltage, which is responsible for the extermination of the mosquito when attracted and aspirated by the light system and ventilation unit, respectively (12 and 18).

[00022] Figure 3 shows the internal part of the insect trap device, comprising frame (7), where the LED chips (8) are installed, electrical wires (9), which connect the chips (8) of each color , wires (10) that connect to the external electrical current, and holes (11) for fixing the LED board inside the trap.

[00023] Figure 4 shows the inner part of the insect trap device, comprising a ventilation unit (12 and 18) and holes (13) for fixing inside the trap.

[00024] Figure 5 shows the structure (14) of the insect trap device, as well as the holes (15) for fixing the fan (12) and the LED board (7).

[00025] Figure 6 shows the insect trap device, comprising external front grille (16), light source frame (17), ventilation unit (12 and 18), low voltage electrical grille (19) and mains of rigid plastic (2) mounted on the rear portion of the trap.

DETAILED DESCRIPTION OF THE INVENTION

[00026] The present invention describes an Aedes insect trap device comprising front grid (1), horizontal rods (2), grid clips (3), metal grid (4 and 19) support, electric grid (5), fixing clip (6), frame (7 and 17), LED light source (8), internal electrical wires (9), electrical wires for external connection (10), holes for fixing the LED frame (11), unit ventilation unit (12 and 18), holes for fixing (13) the ventilation unit (12 and 18), frame (14), fixing brackets (15), external front grille (16) and grille at the rear of the trap (20).

[00027] In a preferred embodiment, the LED light source (8) comprises 4 green LED light chips (520±30nm), 2 blue LED chips (450±30nm) and 2 yellow LED chips (550±30nm). 30nm), with a total rated power of 0.2W to 3.52W, with peak power in the green emission spectrum, or another rated power depending on the size of the trap, always with peak power in the green spectrum.

[00028] In a preferred embodiment, the structure (14) can be adapted to various geometric shapes, such as cone, cube, cylinder, parallelepiped and pyramid, among other shapes and sizes, not limited to the shapes described herein.

[00029] The ventilation unit (12 and 18), preferably a cooler from 40 to 120mm in diameter, operated between 3 to 24V, and a higher voltage ventilation unit can also be used.

[00030] In another preferred embodiment, the essential components of the trap device are assembled in the order they appear in Figure 6, comprising external front grille (16), light source frame (7 and 17) with LEDs (8) green, blue and yellow, ventilation unit (12 and 18) using the ventilation unit (12 and 18), preferably those similar to those used in a computer, having dimensions from 40 to 120 mm, with a width of 5 mm to 20 mm, grid low voltage electrical (4 and 19) and plastic net (20) - which can be made of nylon, polyester or other similar material, with nylon being the preferred material - mounted on the rear portion of the trap device, with the function of collect and keep the exterminated mosquitoes in the trap, for later collection and cleaning of the equipment.

[00031] Also, the present invention has several benefits in combating and exterminating the Aedes aegypti vector, as it was developed based on scientific evidence, which proves the sensitivity of the female retina of this species to visible light, in the range of the electromagnetic spectrum at wavelengths wave (Ànm) between blue and yellow, with a sensitivity peak in the green range of the spectrum.

[00032] This sensitivity, proven in retinographic studies, is directly related to the attraction of the female of this species and can facilitate their selective attraction, through this physiological specificity, in the selective control of vectors. In view of this physiological characteristic of the visual system of the female Aedes aegypti, it was possible to develop the lighting system of this invention, based on the light-emitting diode (LED), which emits light in a narrow spectrum and thus allows the assembly of LEDs with emission in different wavelengths in order to obtain this specific range of the visible electromagnetic spectrum.

[00033] In the case of this invention, LED lights (8) in blue, green and yellow were used, connected in pairs of electrical wires (9) inside a plastic frame (7), which is fixed to the structure by screws and wired to the electrical system (10) of the invention.

[00034] Still, in the present invention, the power of the green LED is greater so that a light beam between blue and yellow is emitted, with greater intensity in the green, compatible with the physiological parameter of attraction by the light of the female of the Aedes aegypti mosquito.

[00035] It is worth mentioning that the light emission occurs together in the blue, green and yellow range, which are the most sensitive wavelengths to the Aedes female retina. When mounting the LEDs in the trap, there are more green LEDs than blue and yellow LEDs, so the light emission has an emission peak in the green light, which corresponds to the mosquito's higher sensitivity range.

[00036] The present invention also discloses an efficient suction system, comprising the use of a ventilation unit (12 and 18), preferably a cooler or fan used in the assembly of computers, which is fixed by screws to the trap structure (14 ) and positioned so as to suck the air at the front entrance of the trap with flow and air towards the rear portion of the trap.

[00037] The ventilation unit (12 and 18), or suction system, is connected in series with the lighting system and both connected to the electrical system (10) of the trap device.

[00038] The present invention also comprises a metallic grid (4 and 19), protected, energized by the electric current, which has the function of exterminating the mosquito by electric shock after it has been attracted by the light and aspirated by the ventilation unit ( 12 and 18).

[00039] The electric grid (4 and 19) has a similar function to that performed by the well-known "rackets to kill mosquitoes", but differs in that it remains energized while the device is on, without the need to activate the on/off button.

[00040] When the mosquito contacts the metallic wires of the grid (4 and 19), with positive and negative poles, the short circuit is closed and the electric shock occurs, exterminating the insect. If the mosquito passes through the electric grid (4 and 19) without being shocked, the insect can be trapped in the rigid plastic screen (20), in the rear grid, mounted just behind the electric grid (4 and 19), and die. by starvation.

[00041] All components of the device of the present invention are fixed to a rigid plastic frame (14) in order to further attract the visual system of the Aedes aegypti mosquito.

[00042] Thus, the present invention aims to reduce the incidence of arboviruses such as dengue, yellow fever, ZiKa fever, chikungunya fever and Mayaro fever, as well as other diseases transmitted by mosquitoes, especially those related to Aedes aegypti , by the use of an attraction, capture and extermination trap, developed and built based on the physiological and environmental specificities of this species

[00043] The present invention is efficient in capturing Aedes mosquitoes in general, and preferably efficient as a trap to attract, capture and exterminate the female Aedes aegypti, in addition to being industrially feasible, with raw material and low-cost components, of long lasting, can be used with low voltages of electric current. It is a practical device to use and easy to handle, not producing any harmful effect to humans and the environment.

[00044] The present invention refers to a device for attracting, capturing and exterminating Aedes mosquitoes, more specifically the female Aedes aegypti, as it is a device for attracting LED light, with capture by aspiration/suction and extermination. by means of low voltage electric shock.

[00045] The specificity for the Aedes aegypti species is based on the trap attraction system, based on the emission of polychromatic visible light emitted in blue, green and yellow colors (between 420 and 580nm), with peak emission in green light, combination of colors that perfectly fits the most sensitive range of luminosity for the female Aedes aegypti retina, enhancing the attraction.

[00046] The trap device is efficient, convenient to use, odorless, non-toxic and environmentally clean.

[00047] The front grid (1) has parallel and spaced horizontal bars, which allow the passage of light from the LEDs (8) and also the aspiration of Aedes aegypti females to the inside of the trap, when attracted by the light emitted specifically for them (between blue, green and yellow).

[00048] The females attracted to the inside of the trap, the suction system, that is, the ventilation unit (12 and 18) launches the mosquitoes against the electric grid (4 and 19) which electrocutes them. If they are not electrocuted, the insects are captured by the rigid plastic net (20) at the rear of the trap, where they die from starvation, or from shock when trying to fly back out of the trap.

[00049] Also, the present invention aims to exterminate the main vector of arboviruses such as dengue, zika, chikungunya and Mayaro from scientific evidence that identifies the most attractive light band for the female of Aedes aegypti, and an aspiration system of these vectors to the inside of the trap, where they will be launched against an electrical grid and electrocuted by low voltage. In addition, the attraction or suction mechanism, ie the ventilation unit (12 and 18) (size and power of the fan; power and emission mode of the LEDs) can be added and/or modified.

[00050] It is important to note that, as it does not use insecticide or any chemical product, the present invention is considerably friendly to the environment and, therefore, can be used in open or closed places, frequented by adults, children or newborns.

[00051] The present invention has been disclosed in this specification in terms of its preferred embodiment. However, other modifications and variations are possible from the present description, still falling within the scope of the invention disclosed herein.

Claims (10)

1. Aedes insect trap device CHARACTERIZED by the fact that it comprises front grille (1), horizontal rods (2), grille clips (3), metallic support grille (4 and 19), electric grille (5), fixing (6), frame (7 and 17), LED light source (8), internal electrical wires (9), electrical wires for external connection (10), holes for fixing the LED frame (11), ventilation unit (12 and 18), holes for fixing (13) the ventilation unit (12 and 18), frame (14), brackets for fixing (15), external front grille (16) and grille in the rear portion of the trap (20 ). 2. Device, according to claim 1, CHARACTERIZED by the fact that the metallic grid (4 and 19) is energized by electric current. 3. Device, according to any one of claims 1 or 2, CHARACTERIZED by the fact that the metallic grid (4 and 19) has metallic wires with positive and negative poles, closing the circuit with the contact of the mosquito and providing the electric shock. 4. Device, according to claim 1, CHARACTERIZED in that the LED light source (8) comprises green, blue and yellow LED light chips, with a total nominal power of 0.2 W to 3.52 W. 5. Device, according to any one of claims 1 or 4, CHARACTERIZED by the fact that the green LED light source (8) has greater power of attraction as it corresponds to the range of greater sensitivity of the mosquito. 6. Device, according to claim 1, CHARACTERIZED in that the ventilation unit (12 and 18) is a cooler of 40 to 120 mm in diameter, 5 to 20 mm in width and operated between 3 to 24 V or Bigger size with different voltage. 7. Device, according to any one of claims 1 to 6, CHARACTERIZED in that the LED light source (8) is connected to the electrical system (10). 8. Device, according to any one of claims 1 to 7, CHARACTERIZED by the fact that the rigid plastic screen (20) will retain the insect when said insect passes through the electric grid (4 and 19). 9. Device, according to any one of claims 1 to 8, CHARACTERIZED by the fact that the ventilation unit (12 and 18) attracts insects, launching said insects against the electric grid (4 and 19). 10. Device, according to any one of claims 1 to 9, CHARACTERIZED by the fact that the structure (14) can be adapted to different geometric shapes, such as cone, cube, cylinder, parallelepiped and pyramid and different sizes.

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