CN215012864U

CN215012864U - Mosquito trapping device

Info

Publication number: CN215012864U
Application number: CN202121284299.XU
Authority: CN
Inventors: 唐成康
Original assignee: Chengdu Valens Medical Technology Co ltd
Current assignee: Sichuan Xinyicheng Technology Co ltd
Priority date: 2021-06-09
Filing date: 2021-06-09
Publication date: 2021-12-07
Anticipated expiration: 2031-06-09

Abstract

The utility model relates to the field of household appliances, in particular to a mosquito killing device; the utility model aims to solve the technical problem that a mosquito trapping device with higher mosquito trapping efficiency and no toxicity and environmental protection is provided. Mosquito trapping device, which comprises a housing, lure light source and fan, still include carbon dioxide enrichment release unit, the carbon dioxide releaser, tuber pipe and storage mosquito box, the top in the shell is fixed to carbon dioxide enrichment release unit, it fixes on the shell to store up the mosquito box, two at least tuber pipes are fixed in the shell, the air outlet of tuber pipe all communicates with storage mosquito box, the air intake of tuber pipe is the different direction of orientation respectively, all be fixed with the fan in the tuber pipe, lure light source and carbon dioxide releaser to fix respectively in the air intake department of each tuber pipe, carbon dioxide enrichment release unit passes through carbon dioxide releaser release carbon dioxide gas.

Description

Mosquito trapping device

Technical Field

The utility model belongs to the technical field of domestic appliance and specifically relates to mosquito device of killing.

Background

Mosquitoes are vectors for various pathogens, easily transmit various diseases including malaria, dengue fever, etc., and seriously harm human health. At present, the widely used chemical mosquito killing method has potential pollution, and the influence of long-time excessive close contact on human health cannot be ignored.

The existing mosquito catching device generally adopts an attracting light source to attract the mosquitoes, when the mosquitoes are attracted to the vicinity of the attracting light source, the mosquitoes are sucked into the device by a fan, so that the mosquitoes are air-dried to be dead, and the device only depends on light to attract the mosquitoes, so that the efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a mosquito trapping device with higher mosquito trapping efficiency and no toxicity and environmental protection is provided.

The utility model provides a technical scheme that its technical problem adopted is: mosquito trapping device, which comprises a housing, lure light source and fan, still include carbon dioxide enrichment release unit, the carbon dioxide releaser, tuber pipe and storage mosquito box, the inside at the shell is fixed to carbon dioxide enrichment release unit, it fixes on the shell to store up the mosquito box, two at least tuber pipes are fixed in the shell, the air outlet of tuber pipe all communicates with storage mosquito box, the air intake of tuber pipe is the different direction of orientation respectively, all be fixed with the fan in the tuber pipe, lure light source and carbon dioxide releaser to fix respectively in the air intake department of each tuber pipe, carbon dioxide enrichment release unit passes through carbon dioxide releaser release carbon dioxide gas.

Furthermore, the number of the air pipes is two, and the air inlets of the two air pipes face the top and the bottom of the shell respectively.

Further, the carbon dioxide releaser is fixed below the air inlet facing the bottom of the shell.

Furthermore, a flow guide part for shielding the air inlet is arranged between the carbon dioxide releaser and the air inlet, and an annular gap is formed between the flow guide part and the air inlet.

Furthermore, an air inlet hole penetrating through the shell is arranged on the shell and close to the carbon dioxide enrichment and release unit.

Furthermore, a mosquito catching hole is formed in the position, close to the attracting light source, of the shell, a lampshade is arranged at the mosquito catching hole, the lampshade is barrel-shaped, a gap is formed in the wall surface of the lampshade and surrounds the axis of the lampshade, the attracting light source is located in the lampshade, the open end of the lampshade is communicated with the air inlet, and the air inlet is communicated with the mosquito catching hole through the gap in the lampshade.

Further, the device also comprises a supporting rod and a base, wherein the supporting rod is fixed at the top of the base, and the shell is fixed on the base and the supporting rod.

Further, the bottom of the base is provided with rollers.

Furthermore, a brake device which can stop the roller is arranged at the bottom of the base.

Further, a handle is arranged on the base and/or the shell.

The utility model has the advantages that: compare with current mosquito trapping apparatus who only utilizes light to lure the mosquito, the utility model discloses the carbon dioxide enrichment release unit that is equipped with sustainable production carbon dioxide utilizes the attractiveness of carbon dioxide to the mosquito to catch the mosquito as the air supply, and the environmental protection is high-efficient and with low costs, safer, use simple and convenient.

Drawings

Fig. 1 is a front view of the structure of the present invention;

FIG. 2 is a left side view of the structure of the present invention;

fig. 3 is a structural sectional view of the present invention;

parts, positions and numbers in the drawings: the device comprises a shell 1, a carbon dioxide enrichment and release unit 2, a carbon dioxide air pipe 3, a carbon dioxide releaser 4, a lampshade 5, an attraction light source 6, an air inlet 7, an air pipe 8, a fan 9, a mosquito storage box 10, a support rod 11, a base 12 and a flow guide piece 13.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1 to 3, the mosquito trapping device comprises a housing 1, an inducing light source 6 and a fan 9, and further comprises a carbon dioxide enrichment and release unit 2, a carbon dioxide releaser 4, air pipes 8 and a mosquito storage box 10, wherein the carbon dioxide enrichment and release unit 2 has a function of absorbing carbon dioxide in air and releasing carbon dioxide, the carbon dioxide enrichment and release unit 2 is fixed inside the housing 1, the mosquito storage box 10 for storing mosquito carcasses is fixed on the housing 1, at least two air pipes 8 are fixed in the housing 1, air outlets of the air pipes 8 are both communicated with the mosquito storage box 10, air inlets of the air pipes 8 respectively face different directions, the fans 9 are fixed in the air pipes 8, negative pressure is generated at the air inlets 7 of the air pipes 8 when the fans 9 work, the fans 9 with different powers can be adopted according to specific use environments or user requirements of the device, the inducing light source 6 and the carbon dioxide releaser 4 are respectively fixed at the air inlets 7 of the air pipes 8, that is, only one of the attracting light sources 6 and the carbon dioxide releasing devices 4 is fixed at one air inlet 7, preferably, when the number of the air pipes 8 is odd, the number of the carbon dioxide releasing devices 4 is larger than the number of the attracting light sources 6, the air inlets 7 are oriented in different directions so as not to affect the releasing amount of the carbon dioxide, if the air inlets 7 of the air pipes 8 are all oriented in one direction, the carbon dioxide flowing out of the carbon dioxide releasing devices 4 is greatly sucked away by the fan 9, the attracting ability of the device to mosquitoes is weakened, especially, the air inlet 7 provided with the attracting light source 6 sucks away the carbon dioxide at the air inlet 7 provided with the carbon dioxide releasing device 4, the carbon dioxide enrichment releasing unit 2 releases the carbon dioxide through the carbon dioxide releasing device 4, for example, the carbon dioxide enrichment releasing unit 2 and the carbon dioxide releasing device 4 are communicated with the carbon dioxide air pipe 3, the carbon dioxide releaser 4 is a pipe or a tank with holes, or can be a section of pipeline near the outlet of the pipeline.

The attracting light source 6 and the carbon dioxide releaser 4 can be independently controlled to be switched on and off according to different requirements, for example, the attracting light source 6 is switched off by only switching on the carbon dioxide releaser 4 in the daytime, so that the energy consumption of the device can be reduced, the attracting light source 6 and the carbon dioxide releaser 4 are simultaneously switched on at night, and the attracting light source and the carbon dioxide releaser are cooperated to each other, so that the mosquito killing effect is better.

The arrangement mode of the air pipes 8 is provided, the number of the air pipes 8 is two, the air inlets 7 of the two air pipes 8 face the top and the bottom of the shell 1 respectively, and the arrangement mode can reduce the influence of the air pipes 8 provided with the inducing light sources 6 on the release amount of carbon dioxide gas to the greatest extent.

Because the density of carbon dioxide gas is greater than the density of air, in order to guarantee the flow of carbon dioxide gas that carbon dioxide releaser 4 released as far as possible, carbon dioxide releaser 4 is fixed in the below of the air intake 7 towards the shell bottom, carbon dioxide gas sinks after releasing to the air from carbon dioxide gas releaser 4, make carbon dioxide gas more difficult by the suction of fan 9, when fan 9 works, produce the air current from bottom to top between air intake 7 towards shell 1 bottom and shell 1, through the experiment, the air current from bottom to top has the more favourable mosquito and inhales mosquito into mosquito storage box 10.

In order to further reduce the suction amount of the fan 9 to the carbon dioxide gas, a flow guide piece 13 used for shielding the air inlet 7 is arranged between the carbon dioxide releaser 4 and the air inlet 7, the flow guide piece 13 is fixed on the air inlet 7 or at the top of the carbon dioxide releaser 4, an annular gap exists between the flow guide piece 13 and the air inlet 7, the area of the air inlet is reduced by the flow guide piece 13, the carbon dioxide releaser 4 is also shielded, the fan 9 is more difficult to suck the carbon dioxide, the gas flow rate at the annular gap is higher, the pressure is low, and mosquitoes can be more easily sucked into the air pipe 8.

In order to facilitate the carbon dioxide enrichment and release unit 2 to adsorb carbon dioxide from air, an air inlet hole penetrating through the housing 1 is arranged on the housing 1 near the carbon dioxide enrichment and release unit 2.

In order to isolate the attracting light source 6 from a user and prevent the user from damaging the attracting light source 6, a mosquito catching hole is formed in the position, close to the attracting light source 6, of the shell 1, a lampshade 5 is arranged at the mosquito catching hole, the lampshade 5 is barrel-shaped, a gap is formed in the wall surface of the lampshade 5 and surrounds the axis of the lampshade 5, the attracting light source 6 and the air inlet 7 are both located in the lampshade 5, the mosquito catching hole is communicated with the air inlet 7 through the gap in the lampshade 5, the lampshade 5 can isolate the user from the attracting light source 6, light rays emitted by the attracting light source 6 are emitted through the gap, the air flow rate at the gap of the lampshade 5 is large, the pressure intensity is small, and mosquitoes are more easily sucked into the air pipe 8.

In order to move or fix the device, the device further comprises a supporting rod 11 and a base 12, the supporting rod 11 is fixed at the top of the base 12, the shell 1 is fixed on the base 12 and the supporting rod 11, and the base 12 can be provided with structures such as bolt holes and hanging holes, so that the base is convenient to be connected with other structures.

In order to facilitate the overall movement of the device, rollers are provided at the bottom of the base 12.

In order to fix the position of the device after the device is moved integrally, a brake device which can stop the roller is arranged at the bottom of the base 12.

In order to move the device conveniently, a handle is arranged on the base 12 and/or the shell 1, and pulling and pushing the handle is more convenient to apply pulling force or pushing force to the whole device.

Claims

1. Mosquito trapping device, including shell (1), lures light source (6) and fan (9), its characterized in that: still include carbon dioxide enrichment release unit (2), carbon dioxide releaser (4), tuber pipe (8) and storage mosquito box (10), carbon dioxide enrichment release unit (2) are fixed in the inside of shell (1), store up mosquito box (10) and fix on shell (1), at least two tuber pipes (8) are fixed in shell (1), the air outlet of tuber pipe (8) all communicates with storage mosquito box (10), air intake (7) of tuber pipe (8) are towards different directions respectively, all be fixed with fan (9) in tuber pipe (8), attract light source (6) and carbon dioxide releaser (4) to fix respectively in air intake (7) department of each tuber pipe (8), carbon dioxide enrichment release unit (2) release carbon dioxide gas through carbon dioxide releaser (4).

2. A mosquito trap as claimed in claim 1, wherein: an air inlet which penetrates through the shell (1) is arranged on the shell (1) and is close to the carbon dioxide enrichment and release unit (2).

3. A mosquito trap as claimed in claim 1, wherein: the mosquito trapping device is characterized in that a mosquito trapping hole is formed in the position, close to the attracting light source (6), of the shell (1), a lampshade (5) is arranged at the mosquito trapping hole, the lampshade (5) is barrel-shaped, a gap is formed in the wall surface of the lampshade (5) in a surrounding mode around the axis of the lampshade (5), the attracting light source (6) is located in the lampshade (5), the open end of the lampshade (5) is communicated with the air inlet (7), and the air inlet (7) is communicated with the mosquito trapping hole through the gap in the lampshade (5).

4. A mosquito trap as claimed in claim 1, wherein: the number of the air pipes (8) is two, and the air inlets (7) of the two air pipes (8) respectively face the top and the bottom of the shell (1).

5. A mosquito trap as claimed in claim 4, wherein: the carbon dioxide releaser (4) is fixed below an air inlet (7) facing the bottom of the shell.

6. A mosquito trap as claimed in claim 5, wherein: a flow guide part (13) used for shielding the air inlet (7) is arranged between the carbon dioxide releaser (4) and the air inlet (7), and an annular gap is formed between the flow guide part (13) and the air inlet (7).

7. A mosquito trap as claimed in any one of claims 1 to 6, wherein: the support device is characterized by further comprising a support rod (11) and a base (12), wherein the support rod (11) is fixed to the top of the base (12), and the shell (1) is fixed to the base (12) and the support rod (11).

8. A mosquito trap as claimed in claim 7, wherein: the bottom of the base (12) is provided with a roller.

9. A mosquito trap as claimed in claim 8, wherein: the bottom of the base (12) is provided with a brake device which can stop the roller.

10. A mosquito trap as claimed in claim 8, wherein: a handle is arranged on the base (12) and/or the shell (1).