CN218302998U - Mosquito killing device - Google Patents

Abstract

The utility model provides a mosquito killing device, which comprises an outer shell, wherein a mosquito inducing bin and a mosquito killing bin are arranged in the outer shell from top to bottom, and mosquito inducing openings are arranged between the mosquito inducing bin and the mosquito killing bin on the outer shell; a mosquito attracting assembly is arranged in the mosquito attracting bin, the mosquito attracting assembly comprises a first fan and a mosquito attracting box arranged below the first fan, a mosquito attracting agent capable of volatilizing is arranged in the mosquito attracting box, and a plurality of volatilizing holes communicated with the inner cavity of the mosquito attracting box are formed in the bottom of the mosquito attracting box; a mosquito killing component is arranged in the mosquito killing bin and comprises a second fan and a mosquito catching and killing component arranged below the second fan; the mosquito attracting assembly, the mosquito attracting opening and the mosquito killing assembly are sequentially communicated up and down, the first fan is used for enabling mosquito attracting agents in the mosquito attracting box to diffuse to the mosquito attracting opening, and the second fan is used for sucking mosquitoes at the mosquito attracting opening and sending the mosquitoes to the mosquito catching and killing part for catching and killing. Mosquito luring component and mosquito killing component cooperation can promote the utility model discloses a mosquito eradication device's kill mosquito efficiency and the ability of killing the mosquito.

Description

Mosquito killing device

Technical Field

The utility model relates to a mosquito eradication equipment's technical field, more exactly relate to a mosquito eradication device.

Background

The mosquito eradication device in the prior art generally attracts mosquitoes to approach through the light emitting of a mosquito luring lamp or the volatilization of a mosquito luring agent, and then sticks and catches the mosquitoes through mosquito sticking paper or kills the mosquitoes through an electric shock net. For people living in urban buildings, mosquitoes in the environment are not many, the common household mosquito killing device is small in size and low in mosquito killing efficiency, on one hand, the mosquitoes can often freely escape after approaching the mosquito killing device, and on the other hand, the capability of capturing or collecting the mosquitoes by the mosquito killing device is limited. In places where mosquitoes are too heavily populated, such as residences built beside water areas or in gardens, the mosquito groups need to be greatly improved in mosquito killing efficiency and mosquito killing capability.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a mosquito eradication device, kill mosquito is efficient and have great ability of killing the mosquito.

The technical solution of the utility model is to provide a mosquito killing device, which comprises an outer shell, wherein a mosquito attracting bin and a mosquito killing bin are arranged in the outer shell from top to bottom, and mosquito attracting openings are arranged between the mosquito attracting bin and the mosquito killing bin on the outer shell; a mosquito attracting assembly is arranged in the mosquito attracting bin, the mosquito attracting assembly comprises a first fan and a mosquito attracting box arranged below the first fan, a mosquito attracting agent capable of volatilizing is arranged in the mosquito attracting box, and a plurality of volatilizing holes communicated with the inner cavity of the mosquito attracting box are formed in the bottom of the mosquito attracting box; a mosquito killing component is arranged in the mosquito killing bin and comprises a second fan and a mosquito catching and killing component arranged below the second fan; the mosquito attracting assembly, the mosquito attracting opening and the mosquito killing assembly are sequentially communicated up and down, the first fan is used for enabling mosquito attracting agents in the mosquito attracting box to diffuse to the mosquito attracting opening, and the second fan is used for sucking mosquitoes at the mosquito attracting opening and sending the mosquitoes to the mosquito catching and killing part for catching and killing.

Compared with the prior art, the utility model discloses a mosquito eradication device has following advantage: the mosquito attracting component and the mosquito killing component are arranged and communicated up and down, when the mosquito killing device works, the mosquito attracting component accelerates the volatilization of the mosquito attracting agent in the mosquito attracting box through the first fan, so that the mosquitoes are attracted to the position near the mosquito attracting opening to play a role of attracting the mosquitoes, and meanwhile, the first fan can also suck the mosquitoes and send the mosquitoes to the mosquito attracting opening through air flow; then the mosquito killing component sucks the mosquitoes near the opening of the mosquito attracting component through a second fan and sends the mosquitoes to the mosquito killing component for killing, thereby playing the role of killing the mosquitoes; mosquito components and mosquito components cooperation can accelerate the utility model discloses a mosquito eradication device's kill mosquito efficiency, the strong suction that first fan and second fan linkage produced also makes the mosquito hardly flee, makes the utility model discloses a mosquito eradication device has the great ability of killing the mosquito.

Preferably, the mosquito trapping assembly further comprises an inner shell, the first fan is arranged in the inner shell, and a concave structure corresponding to the mosquito trapping opening is arranged in the middle of the inner shell below the first fan; a top cover is arranged on the top of the inner shell above the first fan, a first air suction opening is formed in the top cover, and the first air suction opening is communicated with an inner cavity of the inner shell where the first fan is located; the inner shell is provided with a first air outlet below the first fan, the first air outlet is located on the top surface of the concave structure, and the inner cavity of the inner shell where the first fan is located, the first air outlet and the mosquito attracting opening are communicated with each other from top to bottom. By adopting the structure, after the first fan operates, airflow enters from the first air suction port, flows through the first fan and then flows out of the first air outlet to the mosquito attracting opening, so that the mosquito attracting agent in the mosquito attracting box is accelerated to volatilize into the mosquito attracting opening; set up interior casing, can be earlier with first fan with lure the mosquito box and all assemble including the mosquito subassembly is whole to constitute on the casing and lure the mosquito storehouse, in assembling the mosquito storehouse of luring of shell body with interior casing again, the structure of shell body also can be simplified to convenient assembly.

Preferably, the middle part of the top cover is provided with a cover plate protruding above the top cover, the first air suction port is positioned at the connecting position of the cover plate and the top cover, the top cover is provided with an air guide surface around the cover plate, and the air guide surface is bent or inclined towards the first air suction port from the edge of the top cover. By adopting the structure, the cover plate is arranged, airflow can be sucked into the inner shell only from the connecting position of the cover plate and the top cover, namely from the circumferential direction by the first fan, and can not directly enter the inner shell along the axial direction of the first fan, so that sundries can be prevented from directly falling into the inner shell to impact the mosquito trapping assembly; the air guide surface is arranged to facilitate air flow, and air can be smoothly sucked into the inner shell along the air guide surface by the first fan.

Preferably, the mosquito trapping box is detachably arranged below the top surface of the concave structure and opposite to the first air outlet. The mosquito trapping agent is an easily-consumed product and needs to be frequently supplemented, and by adopting the structure, the mosquito trapping box is convenient to disassemble, and the mosquito trapping agent in the mosquito trapping box can be supplemented.

Preferably, be provided with detachable on the top surface of inner concave structure and lure mosquito box mount pad, be provided with the mounting groove in the mosquito box mount pad of luring, lure the mosquito box setting to be in the mounting groove in, the lateral wall that lures the mosquito box with the cell wall magnetism of mounting groove inhale and be connected. By adopting the structure, the mosquito trapping box is magnetically attracted in the mounting groove, the dismounting is very convenient, and the mosquito trapping box mounting seat is detachably mounted on the top surface of the concave structure and is also convenient to assemble.

Preferably, the bottom of the mosquito trapping box is a lower cover arranged at the lower end of the side wall of the mosquito trapping box, the volatilization holes are all arranged on the lower cover, and the lower cover is transparent. By adopting the structure, the lower cover is transparent, so that the usage amount of the mosquito trapping agent in the mosquito trapping box can be conveniently observed, and timely supplement is facilitated; the lower cover is arranged at the lower end of the side wall of the mosquito attracting box, different materials can be used for the side wall of the mosquito attracting box, and the materials which can be magnetically attracted can not be prevented from being used for the side wall of the mosquito attracting box.

Preferably, be provided with the second air intake on the bottom surface of indent structure, the second air intake is relative with the second fan, and the kill mosquito subassembly passes through the second air intake and lures the mosquito opening intercommunication. By adopting the structure, after the second fan is operated, the mosquitoes near the mosquito attracting opening can be sucked and sent to the mosquito catching and killing part for catching and killing.

Preferably, the mosquito killing assembly further comprises a fan shell, the fan shell is arranged below the second air inlet, the second fan is arranged in the fan shell, and an inner cavity of the fan shell is communicated with the mosquito attracting opening through the second air inlet; the bottom of fan shell is provided with the collection mosquito mouth with the inner chamber intercommunication of fan shell, the part of killing the mosquito be located the below of collection mosquito mouth, the second fan carries the mosquito to reach the part department of killing the mosquito through collection mosquito mouth. By adopting the structure, the air flow generated by the second fan can enable the mosquitoes to be sucked from the vicinity of the mosquito attracting opening and reach the mosquito catching and killing part through the mosquito collecting opening; set up the fan shell, can assemble all to constitute the kill mosquito subassembly whole on the fan shell with second fan and electric shock net earlier, assemble the kill mosquito storehouse of shell body with the fan shell again in, the structure of shell body also can be simplified to convenient assembly.

Preferably, the outer shell is also provided with a mosquito collecting bin below the mosquito killing bin, a mosquito collecting box is arranged in the mosquito collecting bin, and the mosquito collecting box is positioned below the fan shell and is communicated with the inner cavity of the fan shell through a mosquito collecting port; the side wall of the mosquito collecting box is provided with a plurality of air outlet grids; the mosquito collecting box is used for collecting the mosquitoes caught and killed by the mosquito killing part. By adopting the structure, the mosquitoes caught and killed by the mosquito catching and killing part can be collected in the mosquito collecting box, so that the collection and the cleaning are convenient; after the second fan operates, the air current enters from the second air inlet, flows through the second fan and flows out of the air outlet grid on the side wall of the mosquito collecting box after the mosquito catching and killing component, in the process, the second fan continuously generates the air current, and mosquitoes caught and killed by the mosquito killing component cannot escape from the mosquito collecting box in the air current direction.

Preferably, the bottom end of the outer shell is provided with a detachable bottom cover, and the bottom cover is used for supporting the mosquito collecting box. By adopting the structure, the bottom cover is detachably arranged at the bottom end of the outer shell, so that the assembly is convenient; set up the bottom and also conveniently settle a mosquito collection box, and need not set up the structure of settling a mosquito collection box in the inside of shell body, avoid complicating the structure of shell body.

Preferably, one side in collection mosquito storehouse is provided with the business turn over storehouse mouth, business turn over storehouse mouth be used for supplying collection mosquito box business turn over collection mosquito storehouse, the outside of collection mosquito box is provided with the pull handle that is used for pull collection mosquito box. By adopting the structure, the pulling handle can be pulled to enable the mosquito collecting box to exit the mosquito collecting bin from the bin inlet and outlet, so that the mosquito corpses in the mosquito collecting box can be conveniently and timely cleaned; then the pulling handle can be pushed to enable the mosquito collecting box to enter the mosquito collecting bin from the bin inlet and outlet and be installed in place, and the operation is convenient.

Preferably, the mosquito catching and killing component is sticky catching paper arranged in the mosquito collecting box, and the sticky catching paper is used for sticky catching the mosquitoes. By adopting the structure, after the second fan is operated, the generated air flow can suck the mosquitoes near the mosquito attracting opening and send the mosquitoes to the mosquito collecting box to be firmly stuck and caught by the sticking and catching paper.

Preferably, the mosquito catching and killing component is an electric shock net arranged above the mosquito collecting box, and the electric shock net is used for killing mosquitoes by electric shock. Adopt this structure, second fan operation back, the air current of production can inhale and send the electric shock net department electric shock near mosquito that lures the mosquito opening, and the mosquito can be killed or stun when passing through the electric shock net, then falls into in the collection mosquito box.

Preferably, an electric shock net supporting frame is detachably connected below the fan shell and is positioned between the mosquito collecting port and the mosquito collecting box; the electric shock net is spiral and is arranged on the electric shock net supporting frame. By adopting the structure, the electric shock net is spiral, so that the area of the electric shock net covering the mosquito collecting opening can be effectively increased, and mosquitoes can not be prevented from falling into the mosquito collecting box through the mosquito collecting opening; the detachable electric shock net support frame is arranged below the fan shell, and assembly is convenient.

Preferably, the mosquito collecting opening is provided with a plurality of electric net limiting strips, the electric net limiting strips are provided with a plurality of electric shock net limiting grooves with downward openings, and the electric shock net is limited in the electric shock net limiting grooves. By adopting the structure, the electric shock net is convenient to limit, and the electric shock net is prevented from shifting.

Preferably, the lateral part of shell body is provided with illumination installation position, is provided with lighting assembly on the illumination installation position, and lighting assembly is including setting up lighting fixture on illumination installation position, setting up lamp strip and the lamp shade on lighting fixture. Adopt this structure, make the utility model discloses a kill mosquito device has the illumination function, and lighting assembly assembles the convenience.

Preferably, a detachable top cover is arranged at the top end of the outer shell, and a switch mounting position is arranged on the upper side of the top cover; the upper end of the illumination support is provided with a touch screen switch, the touch screen switch is arranged on the switch installation position, and the touch screen switch is used for controlling the on-off of the lamp strip, the first fan and the second fan. Adopt this structure, set up touch-sensitive screen switch and both convenience of customers used, also made the utility model discloses a mosquito eradication device appearance structure is regular.

Drawings

Fig. 1 is a schematic structural view of the mosquito killing device of the present invention.

Fig. 2 is a sectional view of fig. 1.

Fig. 3 is an exploded view of fig. 1.

As shown in the figure: 1. the mosquito killer lamp comprises an outer shell, 1-1 parts of a mosquito trapping bin, 1-2 parts of a mosquito trapping opening, 1-3 parts of a mosquito killing bin, 1-4 parts of a mosquito collecting bin, 1-5 parts of a lighting installation position, 2 parts of a mosquito trapping component, 2-1 parts of a top cover, 2-11 parts of a first air suction opening, 2-12 parts of an air guide surface, 2-13 parts of a switch installation position, 2-2 parts of an inner shell, 2-21 parts of an inner concave structure, 2-22 parts of a first air outlet, 2-23 parts of a second air inlet, 2-3 parts of a first fan, 2-4 parts of a mosquito trapping box installation seat, 2-5 parts of a mosquito trapping box, 2-51 parts of a lower cover, 2-52 parts of a volatilization hole, 3 parts of a mosquito killing component, 3-1 part of a fan shell, 3-12 parts of a mosquito collecting opening, 3-13 parts of a mosquito killing net limiting groove, 3-2 parts of a second fan, 3-3 parts of a electric shock net, 3-3 parts of an electric shock net, 3-4 parts of an electric shock net supporting frame, 4 parts of a mosquito collecting box, 4-1 parts of an air outlet grid, 4-2 parts of a pull handle, 5 parts of a pull handle, 6 parts of a lighting lamp strip, 6 parts of a main control lamp, 6 parts of a lighting lamp, 7-1, 7 parts of a lamp strip, 7-1, 8 parts of a touch lamp, 8 parts of a lamp strip, 7-1, 8 parts of a lamp strip and a lamp strip.

Detailed Description

For a better understanding of the present application, various aspects of the present application will be described in more detail with reference to the accompanying drawings. It should be understood that the detailed description is merely illustrative of exemplary embodiments of the present application and does not limit the scope of the present application in any way. Like reference numerals refer to like elements throughout the specification.

In the drawings, the thickness, size, and shape of an object have been slightly exaggerated for convenience of explanation. The figures are purely diagrammatic and not drawn to scale.

It will be further understood that the terms "comprises," "comprising," "includes," "including," and/or "including," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. Further, when a statement such as "… at least one" appears after the list of listed features, the entire listed feature is modified rather than modifying individual elements in the list.

Example 1:

as shown in figures 1 to 3, the mosquito eradication device of the utility model comprises an outer shell 1, a mosquito attraction chamber 1-1, a mosquito eradication chamber 1-3 and a mosquito collection chamber 1-4 are arranged in the outer shell 1 from top to bottom, and mosquito attraction openings 1-2 are arranged between the mosquito attraction chamber 1-1 and the mosquito eradication chamber 1-3 on the outer shell 1.

The mosquito trapping component 2 is arranged in the mosquito trapping bin 1-1, the mosquito trapping component 2 comprises an inner shell 2-2, a first fan 2-3, a mosquito trapping box mounting seat 2-4 and a mosquito trapping box 2-5, and a volatilizable mosquito trapping agent is arranged in the mosquito trapping box 2-5. The middle part of the inner shell 2-2 is provided with an inner concave structure 2-21 corresponding to the mosquito attracting opening 1-2; the first fan 2-3 is arranged in the inner shell 2-2 and is positioned above the concave structure 2-21. The top of the inner shell 2-2 is provided with a top cover 2-1 above the first fan 2-3, and the top cover 2-1 is connected with the inner shell 2-2 in a buckling way. The middle part of the top cover 2-1 is provided with a cover plate protruding above the top cover 2-1, and the cover plate and the top cover 2-1 are of an integrated structure and are opposite to the first fan 2-3; a first air suction opening 2-11 is formed in the connecting position of the cover plate and the top cover 2-1; the top cover 2-1 is provided with a wind guide surface 2-12 around the cover plate, the wind guide surface 2-12 can be a curved surface or an inclined surface, when the wind guide surface 2-12 is a curved surface, the wind guide surface 2-12 is bent from the edge of the top cover 2-1 to the first air suction port 2-11, and when the wind guide surface 2-12 is an inclined surface, the wind guide surface 2-12 is inclined from the edge of the top cover 2-1 to the first air suction port 2-11. The inner shell 2-2 is provided with a first air outlet 2-22 below the first fan 2-3, the first air outlet 2-22 is positioned on the top surface of the concave structure 2-21 and communicated with the mosquito attracting opening 1-2, and the first air outlet 2-22 is a grid hole. The first air suction port 2-11, the inner cavity of the inner shell 2-2 where the first fan 2-3 is located, the first air outlet 2-22 and the mosquito luring opening 1-2 are sequentially communicated up and down.

The mosquito trapping box mounting seat 2-4 is positioned in the concave structure 2-21, the mosquito trapping box mounting seat 2-4 is detachably connected to the top surface of the concave structure 2-21 through screws, a mounting groove is formed in the mosquito trapping box mounting seat 2-4 and is opposite to the first air outlet 2-22, and the wall of the mounting groove is made of a magnet or a magnet; the mosquito trapping box 2-5 is arranged in the mounting groove, the side wall of the mosquito trapping box 2-5 is made of magnetizable materials such as iron, cobalt, nickel and the like, and the side wall of the mosquito trapping box 2-5 is in magnetic attraction connection with the wall of the mounting groove. The bottom of the mosquito attracting box 2-5 is a lower cover 2-51 arranged at the lower end of the side wall of the mosquito attracting box 2-5, the lower cover 2-51 is connected with the lower end of the side wall of the mosquito attracting box 2-5 in a buckling or threaded manner, the lower cover 2-51 is made of transparent materials, and the lower cover 2-51 is provided with a plurality of volatilization holes 2-52 communicated with the inner cavity of the mosquito attracting box 2-5.

A mosquito killing component 3 is arranged in the mosquito killing bin 1-3, and the mosquito killing component 3 comprises a fan shell 3-1, a second fan 3-2, an electric shock net 3-3 and an electric shock net support frame 3-4. The top end of the fan shell 3-1 is provided with an opening, the top end of the circumferential wall of the fan shell 3-1 is connected to the lower side of the bottom surface of the concave structure 2-21 through screws, the second fan 3-2 is arranged in the fan shell 3-1, the bottom surface of the concave structure 2-21 is provided with a second air inlet 2-23, the second air inlet 2-23 is opposite to the second fan 3-2 and is communicated with the mosquito attracting opening 1-2, the inner cavity of the fan shell 3-1 is communicated with the mosquito attracting opening 1-2 through the second air inlet 2-23, and the second air inlet 2-23 is also a grid hole. The bottom end of the fan shell 3-1 is provided with a mosquito collecting port 3-12, the mosquito collecting port 3-12 is communicated with the inner cavity of the fan shell 3-1, the mosquito collecting port 3-12 is provided with a plurality of electric net limiting strips, and the electric net limiting strips are provided with a plurality of electric shock net limiting grooves 3-13 with downward openings; an electric shock net supporting frame 3-4 can be detachably connected to the lower portion of the fan shell 3-1 and can be in screw connection or buckle connection, the electric shock net 3-3 is spiral and is arranged on the electric shock net supporting frame 3-4, and meanwhile the electric shock net 3-3 is limited in an electric shock net limiting groove 3-13.

The bottom end of the outer shell 1 is connected with a bottom cover 5 in a buckling mode, one side of the mosquito collecting bin 1-4 is provided with a bin inlet and outlet, a mosquito collecting box 4 is arranged in the mosquito collecting bin 1-4, the bottom cover 5 supports the mosquito collecting box 4, the mosquito collecting box 4 can enter and exit the mosquito collecting bin 1-4 through the bin inlet and outlet, and the outer side of the mosquito collecting box 4 is provided with a drawing handle 4-2 for drawing the mosquito collecting box 4. The mosquito collecting box 4 is positioned below the fan shell 3-1 and is communicated with the inner cavity of the fan shell 3-1 through a mosquito collecting port 3-12, the side wall of the mosquito collecting box 4 is provided with a plurality of air outlet grids 4-1, and the side wall of the mosquito collecting bin 1-4 is also provided with a plurality of grid holes communicated with the air outlet grids 4-1.

The side part of the outer shell 1 is provided with lighting installation positions 1-5, the lighting installation positions 1-5 are provided with lighting assemblies 6, and each lighting assembly 6 comprises a lighting bracket 6-3 arranged on the lighting installation positions 1-5, a light bar 6-2 arranged on the lighting bracket 6-3 and a lampshade 6-1. The upper side of the top cover 2-1 is provided with a switch mounting position 2-13; the upper end of the lighting bracket 6-3 is provided with a touch screen switch 7, and the touch screen switch 7 is arranged on the switch mounting position 2-13; a main control board 8 is further arranged between the outer shell 1 and the inner shell 2-2, a touch screen switch 7 is electrically connected with the main control board 8, the main control board 8 is electrically connected with the light bar 6-2, the first fan 2-3, the second fan 3-2 and the electric shock net 3-3, and the touch screen switch 7 controls the on-off of the light bar 6-2, the first fan 2-3, the second fan 3-2 and the electric shock net 3-3 through the main control board 8.

When the mosquito killing device works, the first fan 2-3 sucks air flow from the first air suction port 2-11, the air flow is discharged into the mosquito attracting opening 1-2 from the first air outlet 2-22 after passing through the inner cavity of the inner shell 2-2 where the first fan 2-3 is located, and the mosquito attracting box 2-5 is located in the air flow channel, so that the first fan 2-3 can accelerate the mosquito attracting agent in the mosquito attracting box 2-5 to volatilize into the mosquito attracting opening 1-2, mosquitoes are attracted to the vicinity of the mosquito attracting opening 1-2, and the mosquito attracting effect is achieved; meanwhile, the first fan 2-3 can suck the mosquitoes and send the mosquitoes to the mosquito attracting opening 1-2 through airflow; the second fan 3-2 sucks air flow from the second air inlet 2-23, meanwhile, mosquitoes near the mosquito attracting opening 1-2 are sucked together, the mosquitoes pass through the inner cavity of the fan shell 3-1 along with the air flow and are discharged to the electric shock net 3-3 through the mosquito collecting opening 3-12 to be killed through electric shock, the mosquitoes after electric shock fall into the mosquito collecting box 4 along with the air flow to be collected, and the air flow flows out through the air outlet grids 4-1 on the side wall of the mosquito collecting box 4 and the grid holes on the side wall of the mosquito collecting bin 1-4. The volume of the mosquito collecting box 4 is large, a large amount of mosquitoes can be collected, and after the mosquitoes which are lucky and not killed by the electric shock net 3-3 fall into the mosquito collecting box 4, the mosquitoes can not escape from the mosquito collecting box 4 because of the air flow obstruction of the second fan 3-2.

Example 2:

the difference between the mosquito killing device of the embodiment and the embodiment 1 is that the mosquito killing component 3 is not provided with the electric shock net 3-3 and the electric shock net support frame 3-4, and the inner bottom surface of the mosquito collecting box 4 is provided with sticky catching paper for sticky catching mosquitoes. When the mosquito killing device works, the first fan 2-3 accelerates the mosquito trapping agent in the mosquito trapping box 2-5 to volatilize into the mosquito trapping opening 1-2, so that mosquitoes are attracted to the position close to the mosquito trapping opening 1-2 to play a role in trapping mosquitoes, and meanwhile, the first fan 2-3 can also suck the mosquitoes and send the mosquitoes to the mosquito trapping opening 1-2 through air flow; the second fan 3-2 sucks the mosquitoes near the opening 1-2 of the mosquito trap and sends the mosquitoes into the mosquito collecting box 4 to be firmly stuck and caught by the sticking and catching paper.

The above are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention; the scope of the appended claims should be accorded the broadest interpretation so as to encompass all such modifications and equivalent arrangements as is within the spirit and scope of the present invention.

Claims (14)

1. A mosquito killing device comprises an outer shell (1), and is characterized in that a mosquito trapping bin (1-1) and a mosquito killing bin (1-3) are arranged in the outer shell (1) from top to bottom, and mosquito trapping openings (1-2) are arranged between the mosquito trapping bin (1-1) and the mosquito killing bin (1-3) on the outer shell (1); a mosquito attracting component (2) is arranged in the mosquito attracting bin (1-1), the mosquito attracting component (2) comprises a first fan (2-3) and a mosquito attracting box (2-5) arranged below the first fan (2-3), a volatilizable mosquito attracting agent is arranged in the mosquito attracting box (2-5), and a plurality of volatilizing holes (2-52) communicated with the inner cavity of the mosquito attracting box (2-5) are formed in the box bottom of the mosquito attracting box (2-5); a mosquito killing component (3) is arranged in the mosquito killing bin (1-3), and the mosquito killing component (3) comprises a second fan (3-2) and a mosquito catching and killing component arranged below the second fan (3-2); the mosquito attracting component (2), the mosquito attracting opening (1-2) and the mosquito killing component (3) are sequentially communicated up and down, the first fan (2-3) is used for enabling the mosquito attracting agent in the mosquito attracting box (2-5) to be diffused to the mosquito attracting opening (1-2), and the second fan (3-2) is used for sucking the mosquitoes in the mosquito attracting opening (1-2) and sending the mosquitoes to the mosquito catching and killing component for catching and killing.

2. The mosquito eradication device according to claim 1, wherein the mosquito attraction component (2) further comprises an inner housing (2-2), the first fan (2-3) is arranged in the inner housing (2-2), and a concave structure (2-21) corresponding to the mosquito attraction opening (1-2) is arranged at the middle part of the inner housing (2-2) below the first fan (2-3); a top cover (2-1) is arranged on the top of the inner shell (2-2) above the first fan (2-3), a first air suction opening (2-11) is arranged on the top cover (2-1), and the first air suction opening (2-11) is communicated with the inner cavity of the inner shell (2-2) where the first fan (2-3) is located; the inner shell (2-2) is provided with a first air outlet (2-22) below the first fan (2-3), the first air outlet (2-22) is positioned on the top surface of the concave structure (2-21), and the inner cavity of the inner shell (2-2) where the first fan (2-3) is positioned, the first air outlet (2-22) and the mosquito attracting opening (1-2) are communicated up and down.

3. A mosquito-killing device according to claim 2, characterized in that the middle part of the top cover (2-1) is provided with a cover plate protruding above the top cover (2-1), the first air suction opening (2-11) is positioned at the connecting position of the cover plate and the top cover (2-1), the top cover (2-1) is provided with an air guide surface (2-12) around the cover plate, and the air guide surface (2-12) is bent or inclined from the edge of the top cover (2-1) to the first air suction opening (2-11).

4. A mosquito eradication device according to claim 2, wherein the mosquito attracting box (2-5) is detachably provided below a top surface of the concave structure (2-21) and opposite the first outlet port (2-22).

5. A mosquito eradication device according to claim 4, wherein the top surface of the recessed structure (2-21) is provided with a detachable mosquito attraction box mounting seat (2-4), a mounting groove is formed in the mosquito attraction box mounting seat (2-4), the mosquito attraction box (2-5) is arranged in the mounting groove, and the side wall of the mosquito attraction box (2-5) is magnetically connected with the groove wall of the mounting groove.

6. The mosquito eradication device according to claim 5, wherein the bottom of the mosquito trapping box (2-5) is a lower cover (2-51) disposed at the lower end of the side wall of the mosquito trapping box (2-5), the volatilization holes (2-52) are disposed on the lower cover (2-51), and the lower cover (2-51) is transparent.

7. A mosquito eradication device according to claim 2, wherein the concave structure (2-21) is provided at a bottom surface thereof with a second air inlet (2-23), the second air inlet (2-23) is opposite to the second fan (3-2), and the mosquito eradication component (3) is communicated with the mosquito attracting opening (1-2) through the second air inlet (2-23).

8. The mosquito eradication device according to claim 7, wherein the mosquito eradication assembly (3) further comprises a fan housing (3-1), the fan housing (3-1) is disposed below the second air inlet (2-23), the second fan (3-2) is disposed in the fan housing (3-1), and an inner cavity of the fan housing (3-1) is communicated with the mosquito attracting opening (1-2) through the second air inlet (2-23); the bottom end of the fan shell (3-1) is provided with a mosquito collecting opening (3-12) communicated with the inner cavity of the fan shell (3-1), the mosquito catching and killing part is positioned below the mosquito collecting opening (3-12), and the second fan (3-2) conveys mosquitoes to the mosquito catching and killing part through the mosquito collecting opening (3-12).

9. The mosquito eradication device according to claim 8, wherein the outer shell (1) is further provided with a mosquito collection bin (1-4) below the mosquito eradication bin (1-3), a mosquito collection box (4) is arranged in the mosquito collection bin (1-4), and the mosquito collection box (4) is positioned below the fan shell (3-1) and is communicated with the inner cavity of the fan shell (3-1) through a mosquito collection port (3-12); the side wall of the mosquito collecting box (4) is provided with a plurality of air outlet grids (4-1); the mosquito collecting box (4) is used for collecting the mosquitoes caught and killed by the mosquito catching and killing component.

10. A mosquito eradication apparatus according to claim 9, wherein a bottom end of the outer case (1) is provided with a detachable bottom cover (5), and the bottom cover (5) is used to support the mosquito collection box (4).

11. The mosquito eradication device according to claim 10, wherein one side of the mosquito collection bin (1-4) is provided with a bin inlet and outlet for the mosquito collection box (4) to enter and exit the mosquito collection bin (1-4), and the outer side of the mosquito collection box (4) is provided with a pulling handle (4-2) for pulling the mosquito collection box (4).

12. The mosquito killing device as claimed in claim 9, wherein the mosquito killing component is a sticky catching paper arranged in the mosquito collecting box (4), and the sticky catching paper is used for sticky catching the mosquitoes.

13. The mosquito eradication device according to claim 9, wherein the mosquito killing part is an electric shock net (3-3) disposed above the mosquito collecting box (4), and the electric shock net (3-3) is used for killing mosquitoes by electric shock.

14. The mosquito eradication device according to claim 13, wherein an electric shock net support frame (3-4) is detachably connected below the fan housing (3-1), and the electric shock net support frame (3-4) is positioned between the mosquito collection port (3-12) and the mosquito collection box (4); the electric shock net (3-3) is spiral and is arranged on the electric shock net support frame (3-4).

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