CN219165484U - Outdoor mosquito eradication device - Google Patents

Abstract

The utility model discloses an outdoor mosquito eradication device, which comprises a top cover, wherein a magnetic attraction interface is arranged on the upper part of the top cover, the magnetic attraction interface is electrically connected with an external power supply, an equipment cover is arranged on the lower part of the top cover, and the top cover is detachably connected with the equipment cover; a control panel is arranged in the top cover, an insect attracting component and an insect killing component are sequentially arranged at the lower part of the equipment cover, and the insect attracting component and the insect killing component are detachably connected with the equipment cover; the control panel is respectively and electrically connected with the magnetic attraction interface, the insect attracting assembly and the insect killing assembly. The light waves with specific wavelength are emitted by the trap lamp to attract mosquitoes, meanwhile, the built-in fan simulates human breathing air flow to guide the mosquitoes to be close to the high-voltage power grid so as to be killed, meanwhile, the titanium dioxide photocatalyst on the trap plate is heated after being illuminated, and when the carbon dioxide matching equipment is released to operate, the fan gathers carbon dioxide gas to the vicinity of the high-voltage power grid so as to further attract the mosquitoes to be killed close to the power grid.

Description

Outdoor mosquito eradication device

Technical Field

The utility model relates to the technical field of mosquito eradication, in particular to an outdoor mosquito eradication device.

Background

In hot summer, mosquitoes are bred in a large quantity, so that normal resting and sleeping of people are affected, people sensitive to bodies are prone to redness and swelling of local skin after the people are bitten, and serious people are subjected to continuous swelling; the mosquitoes carry a large amount of germs, so that various diseases can be transmitted, and the damage to human beings is large, so that the mosquito prevention and the mosquito killing are very necessary in summer; at present, mosquito killing products in the market are various, such as liquid mosquito-repellent incense, mosquito-killing lamps and the like, and although the liquid mosquito-repellent incense has good mosquito killing effect, the liquid mosquito-repellent incense is easy to influence the respiratory tract after being inhaled by a human body for a long time; the mosquito eradication lamp attracts mosquitoes to get close to and shock the mosquito through sending the light wave of special wavelength, and the mosquito-lured mode is comparatively single, and result of use is relatively poor under outdoor complex environment.

Disclosure of Invention

Aiming at the technical problems that the existing mosquito killing lamp has a single mosquito trapping mode and poor using effect in an outdoor complex environment, the utility model provides an outdoor mosquito killing device.

The utility model realizes the above purpose through the following technical scheme:

the outdoor mosquito eradication device comprises a top cover, wherein a magnetic attraction interface is arranged on the upper part of the top cover and is electrically connected with an external power supply, an equipment cover is arranged on the lower part of the top cover, and the top cover is detachably connected with the equipment cover; a control panel is arranged in the top cover, an insect attracting component and an insect killing component are sequentially arranged at the lower part of the equipment cover, and the insect attracting component and the insect killing component are detachably connected with the equipment cover; the control panel is respectively and electrically connected with the magnetic attraction interface, the insect attracting assembly and the insect killing assembly.

Preferably, a control button is arranged on the top cover, a power converter and an MCU are arranged in the control panel, the power converter is electrically connected with the magnetic attraction interface through an external connector, the power converter is electrically connected with the MCU, the control button is electrically connected with the MCU, and the MCU is respectively electrically connected with the insect attracting assembly and the insect killing assembly through a relay group.

Preferably, the insect attracting assembly comprises an insect attracting lamp, the insect attracting lamp is arranged at the lower part of the equipment cover, and the insect attracting lamp is electrically connected with the MCU through a relay set.

Preferably, the insect attracting component comprises a turbofan and an insect attracting plate, the turbofan is arranged at the lower part of the equipment cover, the insect attracting plate is arranged below the turbofan, the insect attracting plate is provided with vent holes, and the insect attracting plate is coated with titanium dioxide photocatalyst; the insect-killing component is arranged at the lower part of the insect-attracting plate.

Preferably, the deinsectization assembly comprises an air inlet grille, a high-voltage power grid and an insulating protective net, wherein the air inlet grille is positioned below the insect attracting plate, the high-voltage power grid is positioned below the air inlet grille, the insulating protective net is sleeved outside the high-voltage power grid, and the high-voltage power grid and the insulating protective net are respectively detachably connected with the equipment cover; the high-voltage power grid is respectively and electrically connected with an external power supply and the MCU through a relay group.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the light waves with the wavelength of 335-395nm are emitted by the trap lamp to attract mosquitoes, meanwhile, the built-in fan is used for simulating human breathing air flow to guide the mosquitoes to be close to the high-voltage power grid so as to be killed, meanwhile, the titanium dioxide photocatalyst on the trap plate is heated to release carbon dioxide after being illuminated, and the released carbon dioxide is converged near the high-voltage power grid by the fan when the device is matched with the carbon dioxide to operate, so that the mosquitoes are further attracted to be killed close to the power grid.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings that are necessary for the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic view of the overall structure of the present utility model.

Fig. 2 is a schematic exploded view of the present utility model.

The reference numerals are explained as follows:

1 is an outdoor mosquito eradication device, 11 is a magnetic attraction interface, 12 is a top cover, 13 is an equipment cover, 14 is a turbofan, 15 is a trap lamp, 16 is a trap plate, 17 is an air inlet grille, 18 is a high-voltage power grid, and 19 is an insulation protection net.

Detailed Description

The technical scheme of the utility model is further explained below with reference to the accompanying drawings 1-2:

as shown in fig. 1-2, the utility model discloses an outdoor mosquito eradication device 1, which comprises a top cover 12, wherein a magnetic attraction interface 11 is arranged at the upper part of the top cover 12, and the magnetic attraction interface 11 is electrically connected with an external power supply. That is, the magnetic interface 11 is provided on the upper portion of the top cover 12, and the magnetic interface 11 is attached to the top cover 12, and the magnetic interface 11 is used as a joint, thereby facilitating subsequent wiring and detachment.

The lower part of the top cover 12 is provided with a device cover 13, and the top cover 12 is detachably connected with the device cover 13. That is, the top cover 12 and the equipment cover 13 adopt mortise-tenon connection structures, connection cards are respectively arranged at the connection positions of the top cover 12 and the equipment cover 13, the corresponding connection cards can be fastened at the butt joint positions of the top cover 12 and the equipment cover 13 through screwing, when the subsequent maintenance needs to be disassembled, the screws at the corresponding positions are screwed off, and then the top cover 12 and the equipment cover 13 are pulled open and separated.

Specifically, a control panel is arranged in the top cover 12, an insect attracting component and an insect killing component are sequentially arranged at the lower part of the equipment cover 13, and the insect attracting component and the insect killing component are detachably connected with the equipment cover 13; the control panel is respectively and electrically connected with the magnetic attraction interface 11, the insect attracting assembly and the insect killing assembly. That is, a control panel is arranged in the top cover 12, an insect attracting component and an insect killing component are arranged at the lower part of the equipment cover 13, and the insect attracting component and the insect killing component are respectively connected with the equipment cover in a screw mode, so that when the subsequent internal parts are damaged, the insect attracting component and the insect killing component can be detached from the equipment cover conveniently; and the control panel can control the starting of the insect attracting component and the insect killing component.

In some embodiments, the top cover 12 is provided with a control button, a power converter and an MCU are arranged in the control panel, the power converter is electrically connected with the magnetic attraction interface 11 through an external connector, the power converter is electrically connected with the MCU, the control button is electrically connected with the MCU, and the MCU is electrically connected with the insect attracting assembly and the insect killing assembly through a relay set respectively. That is, when in use, the motor control button is used for controlling the starting/closing, and after the MCU receives the starting/closing signal, the MCU is powered on and off through the control relay group so as to control the power on and off of the insect attracting component and the insect killing component.

In some embodiments, the insect attracting assembly includes a trap lamp 15, the trap lamp 15 is disposed at a lower portion of the device housing 13, and the trap lamp 15 is electrically connected to the MCU through a relay group. That is, a trap lamp 15 is arranged at the lower part of the equipment cover 13, light waves of 335-395nm are emitted by the trap lamp 15 to induce light waves to mosquito, and the switch of the trap lamp is controlled by clicking a control button.

In some embodiments, the insect attracting assembly includes a turbo fan 14 and an insect attracting plate 16, the turbo fan 14 is disposed at the lower part of the device cover 13, the insect attracting plate 16 is disposed below the turbo fan 14, the insect attracting plate 116 is provided with a vent hole, and the insect attracting plate 16 is coated with a titanium dioxide photocatalyst. That is, the turbo fan 14 is embedded in the lower part of the equipment cover 13, the insect attracting plate 16 is arranged below the turbo fan 14, the annular mounting plate is arranged on the inner side of the equipment cover 13, the connecting plate is arranged on the side of the insect attracting plate 16, the connecting holes are respectively arranged on the annular mounting plate and the connecting plate, and the insect attracting plate 16 is connected with the bottom of the equipment cover 13 by using screws to penetrate through the connecting plate and the mounting plate; when in use, the titanium dioxide photocatalyst on the insect attracting plate 16 is heated to generate strong oxidation after being illuminated, and is decomposed to generate water vapor and carbon dioxide, so that the carbon dioxide exhaled by a person is simulated to attract mosquitoes to enter.

Specifically, the insect-attracting plate 16 is provided with an insect-killing component at the lower part; the insect killing assembly comprises an air inlet grille 17, a high-voltage electric network 18 and an insulating protective network 19, wherein the air inlet grille 17 is positioned below the insect attracting plate 16, the high-voltage electric network 18 is positioned below the air inlet grille 17, the insulating protective network 19 is sleeved outside the high-voltage electric network 18, and the high-voltage electric network 18 and the insulating protective network 19 are respectively detachably connected with the equipment cover 13; the high-voltage power grid 18 is electrically connected with an external power supply and the MCU through a relay set respectively.

That is, the air inlet grille 17 is arranged at the lower part of the insect attracting plate 16, the air vent is arranged on the insect attracting plate 16 at the same time, the air vent is matched with the air inlet grille 17 for collecting carbon dioxide gas to attract mosquitoes to the insect attracting plate 16, the high-voltage electric net 18 is arranged below the air inlet grille 17, the mosquito attracting effect in the outdoor complex environment is improved under the double matching effect of the insect attracting plate 16 and the insect attracting lamp 15, the high-voltage electric net 18 and the insulating protective net 19 are respectively connected with the annular mounting plate at the bottom of the equipment cover 13 through screws, and the insulating protective net 19 can be used for avoiding personnel from being electrically shocked by mistake.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (5)

1. The outdoor mosquito eradication device comprises a top cover (12), wherein a magnetic attraction interface (11) is arranged on the upper portion of the top cover (12), and the magnetic attraction interface (11) is electrically connected with an external power supply, and the outdoor mosquito eradication device is characterized in that an equipment cover (13) is arranged on the lower portion of the top cover (12), and the top cover (12) is detachably connected with the equipment cover (13); a control panel is arranged in the top cover (12), an insect attracting component and an insect killing component are sequentially arranged at the lower part of the equipment cover (13), and the insect attracting component and the insect killing component are detachably connected with the equipment cover (13); the control panel is respectively and electrically connected with the magnetic attraction interface (11), the insect attracting component and the insect killing component.

2. The outdoor mosquito eradication device according to claim 1, wherein a control button is arranged on the top cover (12), a power converter and an MCU are arranged in the control panel, the power converter is electrically connected with the magnetic attraction interface (11) through an external connector, the power converter is electrically connected with the MCU, the control button is electrically connected with the MCU, and the MCU is electrically connected with the insect attracting assembly and the insect eradication assembly through a relay set respectively.

3. An outdoor mosquito eradication device according to claim 2, wherein the insect attracting assembly comprises an insect attracting lamp (15), the insect attracting lamp (15) being arranged at the lower part of the equipment cover (13), the insect attracting lamp (15) being electrically connected to the MCU through a relay set.

4. An outdoor mosquito killing device according to claim 2 or 3, wherein the insect attracting component comprises a turbofan (14) and an insect attracting plate (16), the turbofan (14) is arranged at the lower part of the equipment cover (13), the insect attracting plate (16) is arranged below the turbofan (14), a vent hole is arranged on the insect attracting plate (16), and titanium dioxide photocatalyst is coated on the insect attracting plate (16); the insect-attracting plate (16) lower part is provided with the deinsectization subassembly.

5. The outdoor mosquito eradication device of claim 4 wherein said insect eradication assembly comprises an air inlet grille (17), a high voltage electrical network (18) and an insulating protective network (19), said air inlet grille (17) being positioned below said insect attracting plate (16), said high voltage electrical network (18) being positioned below said air inlet grille (17), said insulating protective network (19) being sleeved outside said high voltage electrical network (18), and said high voltage electrical network (18) and said insulating protective network (19) being detachably connected to said equipment cover (13), respectively; the high-voltage power grid (18) is electrically connected with an external power supply and the MCU through a relay group respectively.

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