CN219182521U - Solar mosquito eradication lamp with induction illumination structure - Google Patents

Abstract

The utility model discloses a solar mosquito eradication lamp with an induction lighting structure, and aims to provide the solar mosquito eradication lamp with the induction lighting structure, which can be normally used in a power-off state. The beneficial effects of the utility model are as follows: the energy saving is facilitated, and the purpose of normal use in the power-off state is achieved; the mosquito killing efficiency is high and the environment is protected; the functions are diversified, and the practicability is improved.

Description

Solar mosquito eradication lamp with induction illumination structure

Technical Field

The utility model relates to the related technical field of mosquito eradication lamps, in particular to a solar mosquito eradication lamp with an induction lighting structure.

Background

The mosquito killing lamp is an environment-friendly pollution-free efficient mosquito killing tool black light lamp which is developed according to the life habit of mosquitoes, and particularly by utilizing the habit that the mosquitoes chase carbon dioxide breath and foraging pheromone, wherein the mosquitoes are phototactic, move along with air flow, are sensitive to temperature and are loved to gather. The mosquito eradication lamp can be divided into an electronic mosquito eradication lamp, an adhesive mosquito eradication lamp and a negative pressure airflow mosquito sucking lamp. The mosquito eradication lamp has the characteristics of simple structure, low price, elegant appearance, small volume, power saving and the like. When in use, the mosquito killing device does not need to adopt any chemical mosquito killing substance, and is a relatively environment-friendly mosquito killing mode.

The existing mosquito eradication lamp is simple in structure, relies on the active approach of mosquitoes to achieve the mosquito eradication effect, is low in mosquito eradication efficiency, is unfavorable for killing the mosquitoes, and is not convenient and effective to use.

The Chinese patent number is CN210695615U, the authorized notice day is 2020, 06 month 09 days, a sticking mosquito-killing lamp is disclosed, which comprises a side plate assembly and a control box, the bottom end of the side plate assembly is connected with the control box, the top end of the side plate assembly is provided with a powerful sticking plate, the powerful sticking plate is in sliding connection with the side plate assembly, the control box is provided with a grid net cover, the left end and the right end of the grid net cover are in contact with the outer edge of the side plate assembly, the top end of the grid net cover is in contact with the powerful sticking plate, the bottom end of the grid net cover is connected with the control box, the side plate assembly, the control box, the grid net cover and the powerful sticking plate form a cavity, a lamp tube is arranged in the cavity, both ends of the lamp tube are connected with the side plate assembly, a circuit board is arranged in the control box, and the lamp tube is electrically connected with the circuit board through the switch.

The mosquito is attracted by ultraviolet rays emitted by the lamp tube, so that the problem of low mosquito killing rate is solved, but the mosquito killing lamp always needs to work continuously for whole night in an electrified state because the mosquitoes are on night, which is unfavorable for energy saving, and cannot be normally used in an outage state, so that the mosquito killing lamp has poor practicability; meanwhile, the mosquito eradication lamp in the patent has only mosquito eradication function and has single function.

Disclosure of Invention

The utility model provides a solar mosquito eradication lamp with an induction lighting structure, which can be normally used in a power-off state, in order to overcome the defect that the mosquito eradication lamp in the prior art cannot be normally used in the power-off state.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a solar energy mosquito killer lamp of response lighting structure, it includes the box, the top of box is equipped with solar panel, solar panel can dismantle with the box and be connected, the side of box is equipped with grid net, LED lamp plate and switch, be equipped with circuit board, battery and all with grid net corresponding high-voltage electric wire netting and ultraviolet lamp board in the box, LED lamp plate, switch, circuit board, battery, high-voltage electric wire netting and ultraviolet lamp plate all can dismantle with the box and be connected, solar panel, LED lamp plate, switch, battery, high-voltage electric wire netting and ultraviolet lamp plate all are connected with the circuit board electricity.

The top of box is equipped with solar panel, solar panel can dismantle with the box and be connected, the side of box is equipped with grid net, LED lamp plate and switch, be equipped with circuit board, battery and all with grid net corresponding high-voltage electric wire netting and ultraviolet lamp board in the box, LED lamp plate, switch, circuit board, battery, high-voltage electric wire netting and ultraviolet lamp board all can dismantle with the box and be connected, solar panel, LED lamp plate, switch, battery, high-voltage electric wire netting and ultraviolet lamp board all are connected with the circuit board electricity. The solar panel absorbs light during daytime, and realizes automatic charging of the storage battery through the circuit board, so that the purpose of normal use under the power-off state is achieved while energy conservation is facilitated; at night, the ultraviolet light emitted by the ultraviolet lamp plate traps mosquitoes, so that the mosquitoes are close to the high-voltage power grid, the high-voltage power grid can generate a voltage with a peak value of 700V to kill the mosquitoes, the killing efficiency is high, and the environment protection is facilitated; the LED lamp panel is beneficial to illumination, so that the mosquito-killing lamp has the mosquito-killing function, has the illumination function, is diversified in function and is beneficial to improving the practicability.

Preferably, the switch comprises an infrared induction switch and a power switch, wherein the infrared induction switch and the power switch are electrically connected with the circuit board, and the infrared induction switch and the power switch are detachably connected with the box body. The power switch is used for controlling the starting or closing of the total circuit of the mosquito eradication lamp; after the infrared inductive switch is triggered at night, the mosquito eradication lamp is controlled by the circuit board, so that the mosquito eradication lamp can continuously illuminate for 30 seconds through the LED lamp panel every 5 seconds, and the energy-saving effect is further improved while illumination is facilitated.

Preferably, the box comprises a back cover plate and a shell, wherein the back side of the shell is an open end, the back cover plate is detachably connected with the open end of the shell and forms a cavity, the circuit board, the storage battery, the high-voltage power grid and the ultraviolet lamp plate are all detachably connected with the cavity, the switch, the LED lamp plate and the grid mesh are all positioned on the front side of the shell, the switch and the LED lamp plate are all detachably connected with the shell, the solar panel is detachably connected with the top side of the shell, a groove is formed in the bottom side of the shell, a corpse discharging opening corresponding to the high-voltage power grid is formed between the groove and the back cover plate, and the corpse discharging opening is positioned at the bottom of the cavity. The dead body discharge port corresponds to the high-voltage power grid, mosquitoes killed by the high-voltage power grid are discharged directly from the dead body discharge port, manual cleaning is not needed, and the mosquito killer is convenient and quick.

Preferably, an included angle formed between the top side of the shell and the rear cover plate is an acute angle, and an included angle formed between the front side of the shell and the bottom side of the shell is an obtuse angle. The design makes the top side of the shell and the front side of the shell in an inclined state, so that the solar panel can absorb the light energy of the pipe, and meanwhile, the solar panel is beneficial to reducing the influence of sundries such as garbage accumulated on the top side of the shell on the work of the solar panel, and meanwhile, a certain waterproof effect is achieved on the box body, the service life is prolonged, the structure of the box body is more compact, and the space is saved; in addition, the mosquito corpse falls outside from the corpse mouth of arranging, still accessible grid net drops, has improved the inside cleanliness of cavity.

Preferably, the circuit board and the storage battery are both positioned at the top of the cavity, the switch and the LED lamp panel are both corresponding to the circuit board, the high-voltage power grid is positioned at the bottom of the cavity, the ultraviolet lamp panel is positioned at the top of the high-voltage power grid, the ultraviolet lamp panel is positioned between the high-voltage power grid and the grid net, and the corpse discharge opening is positioned at the bottom of the high-voltage power grid. The design is convenient for the connection of the internal circuit, and meanwhile, the mosquito body killed by the high-voltage power grid is prevented from being clamped between components of the internal circuit to cause the damage of the circuit, so that the mosquito body is directly discharged out of the cavity from the carcass discharge port, and the inside of the cavity is kept clean.

Preferably, the high-voltage power grid and the back cover plate are parallel to each other, and the width between the top of the grid and the high-voltage power grid is larger than the width between the bottom of the grid and the high-voltage power grid. The design is favorable for the installation of the ultraviolet lamp plate, and simultaneously the whole structure is more compact, thereby being favorable for saving space.

The beneficial effects of the utility model are as follows: the energy-saving device is beneficial to energy saving and achieves the purpose of normal use in a power-off state; the mosquito killing efficiency is high and the environment is protected; the functions are diversified, so that the practicability is improved; the mosquitoes killed by the high-voltage electric net are directly discharged from the dead body discharge port, so that manual cleaning is not needed, and the mosquito killing device is convenient and quick; the top side of the shell and the front side of the shell are both in an inclined state, so that the solar panel can absorb the light energy of the pipe, and meanwhile, the solar panel is beneficial to reducing the influence of sundries such as garbage accumulated on the top side of the shell on the work of the solar panel, meanwhile, a certain waterproof effect is achieved on the box body, the service life is prolonged, the structure of the box body is more compact, and the space is saved; the connection of the internal circuit of the cavity is convenient, and meanwhile, the mosquito body killed by the high-voltage power grid is prevented from being clamped between components of the internal circuit to cause the damage of the circuit, so that the mosquito body is directly discharged out of the cavity from the carcass discharge port, and the inside of the cavity is kept clean.

Drawings

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

FIG. 2 is a front view of the present utility model;

FIG. 3 is a cross-sectional view of B-B in FIG. 2;

fig. 4 is a bottom view of fig. 2.

In the figure: 1. the solar energy lamp comprises a box body, a solar panel, a grid mesh, an LED lamp panel, a switch, a circuit board, a storage battery, a high-voltage power grid, an ultraviolet lamp panel, an infrared induction switch, a power switch, a rear cover plate, a shell, a cavity and a dead body opening.

Detailed Description

The utility model is further described below with reference to the drawings and detailed description.

In the embodiment shown in fig. 1, 2 and 3, a solar mosquito eradication lamp with an induction lighting structure comprises a box body 1, wherein a solar panel 2 is arranged at the top of the box body 1, the solar panel 2 is detachably connected with the box body 1, a grid mesh 3, an LED lamp panel 4 and a switch 5 are arranged on the side surface of the box body 1, a circuit board 6, a storage battery 7 and a high-voltage power grid 8 and an ultraviolet lamp panel 9 which are corresponding to the grid mesh 3 are arranged in the box body 1, the LED lamp panel 4, the switch 5, the circuit board 6, the storage battery 7, the high-voltage power grid 8 and the ultraviolet lamp panel 9 are detachably connected with the box body 1, and the solar panel 2, the LED lamp panel 4, the switch 5, the storage battery 7, the high-voltage power grid 8 and the ultraviolet lamp panel 9 are all electrically connected with the circuit board 6.

As shown in fig. 1, 2 and 4, the switch 5 includes an infrared sensing switch 10 and a power switch 11, the infrared sensing switch 10 and the power switch 11 are electrically connected with the circuit board 6, and the infrared sensing switch 10 and the power switch 11 are detachably connected with the case 1.

As shown in fig. 3, the case 1 includes a back cover plate 12 and a housing 13, the back side of the housing 13 is an open end, the back cover plate 12 is detachably connected with the open end of the housing 13 and forms a cavity 14, the circuit board 6, the storage battery 7, the high-voltage power grid 8 and the ultraviolet lamp plate 9 are all detachably connected with the cavity 14, the switch 5, the LED lamp plate 4 and the grid 3 are all located at the front side of the housing 13, the switch 5 and the LED lamp plate 4 are all detachably connected with the housing 13, the solar panel 2 is detachably connected with the top side of the housing 13, the bottom side of the housing 13 is provided with a groove, a corpse discharge opening 15 corresponding to the high-voltage power grid 8 is formed between the groove and the back cover plate 12, and the corpse discharge opening 15 is located at the bottom of the cavity 14.

As shown in fig. 1 and 3, the top side of the housing 13 forms an acute angle with the back cover 12, and the front side of the housing 13 forms an obtuse angle with the bottom side thereof.

As shown in fig. 1 and 3, the circuit board 6 and the storage battery 7 are both located at the top of the cavity 14, the switch 5 and the LED lamp panel 4 are both corresponding to the circuit board 6, the high-voltage power grid 8 is located at the bottom of the cavity 14, the ultraviolet lamp panel 9 is located at the top of the high-voltage power grid 8, the ultraviolet lamp panel 9 is located between the high-voltage power grid 8 and the grid net 3, and the corpse discharge port 15 is located at the bottom of the high-voltage power grid 8.

As shown in fig. 3, the high-voltage grid 8 and the back cover plate 12 are parallel to each other, and the width between the top of the grid 3 and the high-voltage grid 8 is larger than the width between the bottom of the grid 3 and the high-voltage grid 8.

The solar panel 2 absorbs light during daytime, the storage battery 7 is automatically charged through the circuit board 6, and the LED lamp panel 4, the ultraviolet lamp panel 9 and the high-voltage power grid 8 are all in an inactive state during daytime, namely, the lighting and mosquito killing functions are in an off state; at night, the mosquito killing and lighting functions are automatically started, and when the mosquito is killed, the ultraviolet light emitted by the ultraviolet lamp plate 9 traps the mosquito, so that the mosquito approaches the high-voltage power grid 8 through the grid mesh 3, the high-voltage power grid 8 can generate a voltage with a peak value of 700V to kill the mosquito, the mosquito killing efficiency is high, the environment is protected, and the killed mosquito is discharged out of the cavity through the dead body discharge port 15 or the grid mesh 3; after the infrared sensing switch 10 is triggered at night, the mosquito eradication lamp is controlled by the circuit board 6 to illuminate through the LED lamp panel 4 for 30 seconds every 5 seconds.

Claims (6)

1. The utility model provides a solar energy mosquito killer lamp of response lighting structure, characterized by, including box (1), the top of box (1) is equipped with solar panel (2), solar panel (2) can dismantle with box (1) and be connected, the side of box (1) is equipped with grid (3), LED lamp plate (4) and switch (5), be equipped with circuit board (6), battery (7) and all with grid (3) corresponding high-voltage electric wire netting (8) and ultraviolet lamp board (9) in box (1), LED lamp plate (4), switch (5), circuit board (6), battery (7), high-voltage electric wire netting (8) and ultraviolet lamp board (9) all can dismantle with box (1) and be connected, solar panel (2), LED lamp plate (4), switch (5), battery (7), high-voltage electric wire netting (8) and ultraviolet lamp board (9) all are connected with circuit board (6) electricity.

2. The solar mosquito eradication lamp with the induction lighting structure according to claim 1, wherein the switch (5) comprises an infrared induction switch (10) and a power switch (11), the infrared induction switch (10) and the power switch (11) are electrically connected with the circuit board (6), and the infrared induction switch (10) and the power switch (11) are detachably connected with the box body (1).

3. The solar mosquito eradication lamp with the induction lighting structure according to claim 1, wherein the box body (1) comprises a rear cover plate (12) and a shell (13), the rear side of the shell (13) is an open end, the rear cover plate (12) is detachably connected with the open end of the shell (13) and forms a cavity (14), the circuit board (6), the storage battery (7), the high-voltage electric net (8) and the ultraviolet lamp plate (9) are detachably connected with the cavity (14), the switch (5), the LED lamp plate (4) and the grid net (3) are all located at the front side of the shell (13), the switch (5) and the LED lamp plate (4) are all detachably connected with the shell (13), the solar panel (2) is detachably connected with the top side of the shell (13), a groove is formed at the bottom side of the shell (13), a drain opening (15) corresponding to the high-voltage electric net (8) is formed between the groove and the rear cover plate (12), and the drain opening (15) is located at the bottom of the cadaver cavity (14).

4. A solar mosquito eradication lamp with an induction lighting structure according to claim 3, wherein the angle between the top side of the housing (13) and the back cover plate (12) is an acute angle, and the angle between the front side of the housing (13) and the bottom side thereof is an obtuse angle.

5. Solar mosquito eradication lamp with induction lighting structure according to claim 3 or 4, characterized in that the circuit board (6) and the storage battery (7) are both located at the top of the cavity (14), the switch (5) and the LED lamp panel (4) are both corresponding to the circuit board (6), the high voltage grid (8) is located at the bottom of the cavity (14), the ultraviolet lamp panel (9) is located at the top of the high voltage grid (8), the ultraviolet lamp panel (9) is located between the high voltage grid (8) and the grid (3), and the corpse discharge opening (15) is located at the bottom of the high voltage grid (8).

6. Solar mosquito eradication lamp with an induction lighting structure according to claim 5, characterized in that the high voltage grid (8) and the back cover plate (12) are parallel to each other, the width between the top of the grid (3) and the high voltage grid (8) is larger than the width between the bottom of the grid (3) and the high voltage grid (8).

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