CN218977791U - Solar mosquito eradication lamp - Google Patents

Abstract

The utility model relates to a solar mosquito eradication lamp, which comprises a solar photovoltaic panel and a mosquito eradication lamp; the mosquito eradication lamp comprises an exhaust fan, a lamp shade, a mosquito falling channel and a pest collecting cloth bag; the lampshade is a reticular lampshade, and the center of the lampshade is vertically provided with a mosquito-attracting lamp powered by a solar photovoltaic panel; the lampshade comprises a lower cover body and a cover cap, a grid plate is arranged between the lower cover body and the cover cap, and the fan is fixed on the grid plate; the mosquito-falling channel is connected between the lower cover body and the insect-collecting cloth bag; a rain shielding plate A arranged along the outer ring of the mosquito-falling channel is arranged at the lower end of the mosquito-falling channel; the mosquito-killing lamp can suck mosquitoes attracted by lamplight into the mosquito-killing lamp by utilizing the suction force of the exhaust fan without using a mosquito-killing power grid, and the mosquitoes are collected by arranging the insect-collecting cloth bag, soft materials of the cloth bag are stuck together under the condition of outdoor wind, so that the mosquitoes can be prevented from escaping, and the cloth bag has good ventilation performance, can play a role in air drying, and can air-dry the captured mosquitoes to prevent the mosquitoes from mildewing and becoming smelly.

Description

Solar mosquito eradication lamp

Technical Field

The utility model belongs to the field of mosquito eradication lamps, and particularly relates to a solar mosquito eradication lamp.

Background

In summer, mosquitoes are one of the main transmitters of bacteria and infectious diseases, and mosquito eradication is a necessary measure to keep the environment sanitary. The existing mosquito eradication lamp mainly utilizes the phototaxis of mosquitoes to attract the mosquitoes through lamplight, and a high-voltage mosquito eradication power grid is arranged outside a lamp tube, so that the mosquitoes are electrocuted after approaching the high-voltage mosquito eradication power grid, and further the mosquito eradication effect is achieved.

The mosquito killing method has the advantages that mosquitoes can be killed only by climbing onto a mosquito killing power grid, and the mosquito killing power grid needs to be electrified, so that electric energy is additionally consumed. Because the mosquito eradication power grid needs to be electrified, the mosquito eradication lamps with the high-voltage mosquito eradication power grid need to be hung at higher positions such as under the eave so as to avoid the occurrence of artificial touch and potential safety hazard.

Disclosure of Invention

In order to overcome the problems in the background technology, the utility model provides the solar mosquito eradication lamp, by arranging the exhaust fan, mosquitoes attracted by lamplight can be sucked into the mosquito eradication lamp by utilizing the suction force of the exhaust fan without using a mosquito eradication power grid, and the mosquitoes are collected by arranging the insect collecting cloth bag, soft materials of the cloth bag are blown down by outdoor wind, the lower parts of the cloth bag are adhered together, once the mosquitoes enter the cloth bag and are difficult to escape, and the cloth bag has good ventilation performance, can play a role in air drying, air-dry the captured mosquitoes, and prevent the mosquitoes from mildewing and becoming bad.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the solar mosquito eradication lamp comprises a solar photovoltaic panel and a mosquito eradication lamp; the mosquito eradication lamp comprises an exhaust fan, a lamp shade, a mosquito falling channel and a pest collecting cloth bag; the lampshade is a reticular lampshade, and the center of the lampshade is vertically provided with a mosquito-attracting lamp powered by a solar photovoltaic panel; the lampshade comprises a lower cover body and a cover cap, a grid plate is arranged between the lower cover body and the cover cap, and the exhaust fan is fixed on the grid plate; the mosquito-falling channel is connected between the lower cover body and the insect-collecting cloth bag; a rain shielding plate A arranged along the outer ring of the mosquito-falling channel is arranged at the lower end of the mosquito-falling channel; the solar photovoltaic panel is fixed through the lamp pole, the mosquito killer lamp is fixed on the lamp pole through the support.

Preferably, a wind scoop, an impact frame and a wind guide ring are also arranged in the lampshade; the wind scoop is big at the upper part and small at the lower part, and the bottom of the wind scoop is a square opening; the impact frame is a square frame and is connected with a square opening of the wind scoop; the lower end of the wind scoop is provided with a wind suction port; the wind-guiding ring passes through the impact frame, the outer edge of the wind-guiding ring is fixed on the inner wall of the lampshade, and an air channel is reserved between the wind-guiding ring and the impact frame.

Preferably, the upper end of the wind scoop is provided with a fixed ring with the outer diameter larger than that of the wind scoop, the inner side of the lampshade is provided with a support ring matched with the fixed ring, and the wind scoop is supported in the lampshade through the support ring.

Preferably, the material of the impact frame is glass.

Preferably, the lower cover body is in threaded connection with the cover, wherein a concave table connecting ring is arranged at the joint of the lower cover body and the cover; a boss connecting ring matched with the concave table connecting ring is arranged at the joint of the cover cap and the lower cover body; the grid plate is detachably clamped and fixed between the concave table connecting ring and the convex table connecting ring.

Preferably, the mosquito eradication lamp is provided with a flashing B.

The utility model has the beneficial effects that:

according to the mosquito-killing lamp, the exhaust fan is arranged, and mosquitoes attracted by lamplight can be sucked into the mosquito-killing lamp by utilizing the suction force of the exhaust fan without using a mosquito-killing power grid; the mosquito is collected through setting up receipts worm sack, and the soft material of sack blows under outdoor wind, produces the shake, shakes the mosquito and falls into the sack lower part, and soft material's sack pastes together easily, and the mosquito is once shaken into the sack and hardly climbs out and escape, and the sack has good ventilative ventilation performance, can play the air-drying effect, air-dries the mosquito of catching, prevents that the mosquito from mildewing, becoming smelly.

The whole structure of the utility model is convenient to detach, overhaul and maintain.

Drawings

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

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged view of a portion at B of FIG. 1;

FIG. 4 is a cross-sectional view of a wind scoop of the present utility model;

FIG. 5 is a top view of the wind scoop of the present utility model;

in the figure, a 1-solar photovoltaic panel, a 2-exhaust fan, a 3-mosquito-falling channel, a 4-insect collecting cloth bag, a 5-mosquito-lured lamp, a 6-lower cover body, a 7-cover, an 8-grid plate, a 9-concave table connecting ring, a 10-boss connecting ring, an 11-flashing A, a 12-clamping ring, a 13-elastic belt, a 14-lamp post, a 15-bracket, a 16-wind scoop, a 17-impact frame, an 18-wind guiding ring, a 19-square opening, a 20-wind suction opening, a 21-wind channel, a 22-fixed ring, a 23-supporting ring, a 24-flashing B and a 25-beneficial insect escape opening are arranged;

remarks: the arrowed lines in the figure are wind directions.

Detailed Description

In order to make the objects, technical solutions and advantageous effects of the present utility model more apparent, preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings, so as to facilitate understanding of the skilled person.

As shown in fig. 1 to 5, the solar mosquito eradication lamp comprises a solar photovoltaic panel 1 and a mosquito eradication lamp. The solar photovoltaic panel 1 is fixed on the lamp post 14, and the mosquito eradication lamp is fixed on the lamp post 14 through a bracket 15.

The mosquito eradication lamp comprises an exhaust fan 2, a lamp shade, a mosquito falling channel 3 and a mosquito collecting cloth bag 4, wherein the lamp shade is a net-shaped cover, and the mesh is required to be larger than the shape of mosquitoes so as to ensure that the mosquitoes can enter the mosquito eradication lamp from the mesh. The center of the lampshade is vertically provided with a mosquito-attracting lamp 5 which is powered by the solar photovoltaic panel 1. The starting time of the lamp tube of the mosquito-attracting lamp 5 is less than or equal to 5S, and the rated voltage is as follows: DC9-12V, the whole lamp power is less than or equal to 20W. In view of the fact that the solar photovoltaic panel 1 is used for supplying power to the lamp in a conventional operation, the power supply modes of the solar photovoltaic panel 1 and the mosquito-attracting lamp 5 are not repeated.

The lampshade comprises a lower cover body 6 and a cover 7, a grid plate 8 is arranged between the lower cover body 6 and the cover 7, the exhaust fan 2 is fixed on the upper end face of the grid plate 8, the grid plate 8 is a grid plate provided with vent holes, and the exhaust fan 2 is supported without influencing the exhaust of the exhaust fan 2. The lower cover body 6 is in threaded connection with the cover 7, wherein a concave table connecting ring 9 is arranged at the joint of the lower cover body 6 and the cover 7, a boss connecting ring 10 matched with the concave table connecting ring 9 is arranged at the joint of the cover 7 and the lower cover body 6, and the grid plate 8 is detachably clamped and fixed between the concave table connecting ring 9 and the boss connecting ring 10. The cover top of the cover cap 7 is a grid cover top, so that the exhaust of the exhaust fan 2 can be ensured. By the threaded connection of the lower housing 6 and the cover 7, the cover 7 can be removed when the suction fan 2 needs to be replaced or overhauled, so that the maintenance of the suction fan 2 is facilitated.

The mosquito-falling channel 3 is connected between the lower cover 6 and the insect-collecting cloth bag 4, and the mosquito-falling channel 3 is in threaded connection with the lower cover 6. The lower end of the mosquito-falling channel 3 is provided with a rain-shielding plate A11 fixed along the outer ring of the mosquito-falling channel 3, and the rain-shielding plate A11 can shield the insect-collecting cloth bag 4 from rain. The bottom of the mosquito-falling channel 3 is provided with a clamping ring 12, the mouth of the insect-collecting cloth bag 4 is provided with an elastic band 13, the insect-collecting cloth bag 4 is sleeved in the clamping ring 12 through the elastic band 13, and the insect-collecting cloth bag 4 can be taken down periodically to collect the mosquito corpses. The soft material of the insect collecting cloth bag 4 blows off in the outdoor air to shake, mosquitoes are shaken off into the lower part of the bag, the cloth bags made of the soft material are easy to stick together, along with the change of the wind direction, the mosquitoes are easy to shake into the insect collecting cloth bag 4, but are difficult to climb out and escape, the cloth bags have good ventilation performance, an air drying effect can be achieved, and the mosquitoes are prevented from being mildewed and smelly when the mosquitoes are air-dried.

The inside of the lampshade is also provided with a wind scoop 16, an impact frame 17 and a wind guide ring 18. The material of the striking frame 17 is glass, and the striking frame 17 made of glass does not influence the light penetration of the mosquito-attracting lamp 5 to attract mosquitoes.

The wind scoop 16 is big in upper and small in lower, the bottom is a square opening 19, and the impact frame 17 is a square frame and is connected with the square opening 19 of the wind scoop 16. The lower end of the wind scoop 16 is provided with a wind suction port 20, the inner ring of the wind guide ring 18 passes through the impact frame 17, the outer edge of the wind guide ring is fixed on the inner wall of the lampshade, and a wind channel 21 is reserved between the wind guide ring 18 and the impact frame 17. The exhaust fan 2 is arranged above the lampshade, and if the wind scooper 17, the impact frame 17 and the wind guide ring 18 are not arranged, mosquitoes close to the lampshade can be directly sucked to the top of the lampshade, and are not easy to fall into the insect collecting cloth bag 4. By providing the strike frame 17, mosquitoes are sucked into the canopy, strike the strike frame 17, and fall into the mosquito-fall path 3. The wind generated by the suction action of the exhaust fan 2 is sucked upwards along the gap between the wind guide ring 18 and the impact frame 17, and due to a certain distance between the air duct 21 and the lampshade, the wind suction track can suck mosquitoes to directly impact on the impact frame 17 and fall into the mosquito falling channel 3 (see arrow in the drawing).

The upper end of the wind scoop 16 is provided with a fixed ring 22 with the outer diameter larger than that of the wind scoop 16, the inner wall of the lamp shade is provided with a supporting ring 23 matched with the fixed ring 22, and the wind scoop 16 is supported in the lamp shade through the supporting ring 23. This structure is convenient for the dismantlement of wind scooper 16 and striking frame 17, and when wind scooper 16 appears that suction inlet 20 blocks up, or the mosquito corpse piles up on striking frame 17 and need take off the clearance, open shroud 7 earlier, take off air exhauster 2 and grid plate 8, take out the clearance with wind scooper 16 together with striking frame 17. The removable manner of the mesh plate 8 also provides for easy removal of the wind scoops 16.

The mosquito eradication lamp is provided with a rain shielding plate B to prevent rainwater from entering the mosquito eradication lamp. The mosquito-falling channel 3 is provided with a beneficial insect escape outlet 25.

Finally, it is noted that the above-mentioned preferred embodiments illustrate rather than limit the utility model, and that, although the utility model has been described in detail with reference to the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the utility model as defined by the appended claims.

Claims (7)

1. The solar mosquito eradication lamp is characterized by comprising a solar photovoltaic panel and a mosquito eradication lamp; the mosquito eradication lamp comprises an exhaust fan, a lamp shade, a mosquito falling channel and a pest collecting cloth bag; the lampshade is a reticular lampshade, and the center of the lampshade is vertically provided with a mosquito-attracting lamp powered by a solar photovoltaic panel; the lampshade comprises a lower cover body and a cover cap, a grid plate is arranged between the lower cover body and the cover cap, and the exhaust fan is fixed on the grid plate; the mosquito-falling channel is connected between the lower cover body and the insect-collecting cloth bag; a rain shielding plate A arranged along the outer ring of the mosquito-falling channel is arranged at the lower end of the mosquito-falling channel; the solar photovoltaic panel is fixed through the lamp pole, the mosquito killer lamp is fixed on the lamp pole through the support.

2. The solar mosquito eradication lamp of claim 1 wherein a wind scoop, a strike frame and a wind-guiding ring are also provided in the lamp housing; the wind scoop is big at the upper part and small at the lower part, and the bottom of the wind scoop is a square opening; the impact frame is a square frame and is connected with a square opening of the wind scoop; the lower end of the wind scoop is provided with a wind suction port; the air guide ring passes through the impact frame and is fixed on the inner wall of the lampshade, and an air channel is reserved between the air guide ring and the impact frame.

3. The solar mosquito eradication lamp of claim 2 wherein the upper end of the wind scoop is provided with a fixing ring with an outer diameter larger than that of the wind scoop, the inner side of the lamp housing is provided with a supporting ring matched with the fixing ring, and the wind scoop is supported in the lamp housing through the supporting ring.

4. The solar mosquito killer lamp of claim 2, wherein the impact frame is made of glass.

5. The solar mosquito eradication lamp of any one of claims 1 to 4 wherein the lower housing is threadably coupled to the cover, wherein a socket connection ring is provided at the junction of the lower housing and the cover; a boss connecting ring matched with the concave table connecting ring is arranged at the joint of the cover cap and the lower cover body; the grid plate is detachably clamped and fixed between the concave table connecting ring and the convex table connecting ring.

6. A solar mosquito eradication lamp according to claim 1, wherein a flashing B is provided on the lamp.

7. The solar mosquito eradication lamp of claim 1 wherein the mosquito-shedding channel is provided with a beneficial insect escape opening.

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