CN211129494U - Trap type mosquito killer - Google Patents

Abstract

The utility model discloses a trap type mosquito killer, which comprises a carbon dioxide generation module, a temperature control module, a humidity control module and a mosquito killing module, wherein the carbon dioxide generation module generates carbon dioxide; the temperature control module controls the temperature of the trapping mosquito killer to be 38-45 ℃, and the temperature changes in a preset range within a preset time; the humidity control module controls the humidity of the trap type mosquito killer to be 50% -80%; the mosquito killing module generates guide wind with the wind speed of 0.7-15 m/s. The utility model discloses a carbon dioxide generation module, temperature control module, humidity control module work of mutually supporting, the simulation human body is breathed, and the at utmost attracts the mosquito, and rethread mosquito killing module lures it to the trapping formula mosquito killer in to air-dry the dehydration extremely die, lures the mosquito effectual, the kill mosquito effect ideal.

Description

Trap type mosquito killer

Technical Field

The utility model relates to an insect field of catching especially relates to a trap formula mosquito killer.

Background

According to statistics, more than two thousand mosquitoes exist on the earth, more than two hundred mosquitoes exist in China, and the mosquitoes harmful to human beings mainly comprise three types, namely anopheles, culex and aedes. The existing mosquito trap generally adopts a UV lamp to generate light with specific wavelength to attract mosquitoes to approach and further trap and kill the mosquitoes. However, the light source attracting method has limitations, and due to limitations of space and obstacles, a portion shielded by the obstacles cannot have an attracting effect, and the mosquito catching effect is not good enough.

According to scientific research: the mosquito bites the human body, not by means of vision, but by using carbon dioxide exhaled by the human body, sweat smell emitted from the body surface and heat as clues to determine the position of the human body. Therefore, mosquito trapping needs to be combined with mosquito habits so as to achieve good effects.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a trapping type mosquito killer, which has good mosquito trapping effect, simple structure and convenient use.

In order to solve the technical problem, the utility model provides a trapping type mosquito killer, which comprises a carbon dioxide generating module, a temperature control module, a humidity control module and a mosquito killing module, wherein the carbon dioxide generating module, the temperature control module and the humidity control module attract mosquitoes, then the mosquitoes are attracted into the trapping type mosquito killer through the mosquito killing module and are dried and dehydrated to death,

the carbon dioxide generation module generates carbon dioxide;

the temperature control module controls the temperature of the trapping mosquito killer to be 38-45 ℃, and the temperature changes in a preset range within a preset time;

the humidity control module controls the humidity of the trap type mosquito killer to be 50% -80%;

the mosquito killing module generates guide wind with the wind speed of 0.7-15 m/s.

As an improvement of the technical scheme, the carbon dioxide generation module comprises a flow control hole, and the flow of the carbon dioxide is controlled to be 20 ml/min-200 ml/min.

As an improvement of the technical scheme, the diameter of the flow control hole is 0.2-0.6 mm.

As an improvement of the technical scheme, the carbon dioxide generation module comprises a container A and a container B, the container A is connected with the container B through a guide pipe, the container A is provided with an air inlet channel, the air inlet channel is connected with an inflating pump, the container B is provided with an exhaust channel and a sewage discharge channel, and the exhaust channel is connected with a carbon dioxide discharge port and a carbon dioxide discharge observation window.

As an improvement of the technical scheme, a one-way valve is arranged on the air inlet channel, the guide pipe connecting the container A and the container B is provided with the one-way valve, an exhaust electromagnetic valve is arranged between the exhaust channel and the carbon dioxide discharge port and between the exhaust channel and the carbon dioxide discharge observation window, and a sewage discharge electromagnetic valve is arranged on the sewage discharge channel.

As an improvement of the technical scheme, the temperature control module controls the temperature of the trap type mosquito killer to be 38-43 ℃, and the temperature changes within 1-5 s in a variation range of +/-0.05-0.5 ℃.

As an improvement of the technical scheme, the humidity control module controls the humidity of the trap type mosquito killer to be 60% -80%.

As an improvement of the technical scheme, the mosquito killing module generates guide wind with the wind speed of 0.7-8 m/s, and the wind speed changes within 5-10 s in a variation range of +/-1-3 m/s.

As an improvement of the technical scheme, the mosquito killing module comprises a fan, an air guide cover and a mosquito storage box;

the fan comprises a plurality of fan blades and a hub, the fan blades are arranged on the peripheral wall of the hub and are arranged at intervals along the circumferential direction of the hub, the interval between the fan blades is 1/(2-3) of the width of the fan blade, the inclination angle between the fan blades and the hub is 45-60 degrees, and a plurality of through holes are formed in the hub.

As an improvement of the technical scheme, the mosquito storage box comprises a mosquito storage net and an anti-escape funnel.

Implement the utility model discloses following beneficial effect has:

the utility model discloses a carbon dioxide generation module, temperature control module, humidity control module and kill mosquito module, wherein, carbon dioxide generation module produces carbon dioxide, temperature control module controlled temperature is in 38 ℃ -45 ℃, and takes place periodic variation, humidity control module controlled humidity, carbon dioxide generation module, temperature control module, humidity control module work of mutually supporting, the human breathing of simulation, the at utmost attracts the mosquito, and rethread kill mosquito module lures it to the trapper in to air-dry dehydration extremely dies, and it is effectual to lure the mosquito, and kill mosquito effect ideal, moreover, the utility model discloses all play good kill mosquito effect to different kinds of mosquito.

Two the carbon dioxide generation module is provided with check valve and solenoid valve, can the operating time of intelligent control mosquito killer to and the emission of carbon dioxide, and the change of carbon dioxide emission to adapt to different areas, the user demand of different seasons and different application occasions, the flexibility is good, and the range of application is wide.

Thirdly, the mosquito is according to the temperature of the human body, humidity and the smelly chemical substance that the human body gived off for the detection target, the utility model discloses according to the characteristic of mosquito, through the temperature control module control trapper mosquito be in 38 ℃ -43 ℃, and take place temperature variation with the range of variation of +/- (0.05-0.5) DEG C within 1s-5s, the humidity of rethread humidity control module control trapper mosquito be in 60% -80%, the flow of the carbon dioxide of rethread carbon dioxide generation module production is 20 ml/minute-200 ml/minute, through the synergistic effect of three, the guide wind that the deuterogamy wind speed is 0.7m/s-8m/s, guarantee that 85-95% mosquito is all lured to the trapper mosquito in.

Fourth, the utility model discloses a kill mosquito module, kill mosquito module include fan, wind scooper and storage mosquito box, wherein, the fan has set up special flabellum interval, and flabellum inclination to be equipped with a plurality of through-holes that run through in wheel hub's inside, can increase the axial air supply volume of kill mosquito module, guarantee that the mosquito can air-dry the dehydration fast extremely die, perhaps just can dizzy extremely die in data send process, avoid its escape, improve kill mosquito efficiency.

Drawings

FIG. 1 is a schematic structural view of the trap mosquito killer of the present invention;

FIG. 2 is a schematic view of the trap mosquito killer of FIG. 1 from yet another perspective;

FIG. 3 is a schematic view of the trap mosquito killer of FIG. 1 from another perspective;

FIG. 4 is a schematic view of the internal structure of the trap mosquito killer of FIG. 1;

FIG. 5 is a schematic diagram of the carbon dioxide generation module of FIG. 1;

FIG. 6 is a schematic structural view of the fan shown in FIG. 1;

FIG. 7 is a schematic structural diagram of a blade of the fan shown in FIG. 6;

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings. Only this statement, the utility model discloses the upper and lower, left and right, preceding, back, inside and outside etc. position words that appear or will appear in the text only use the utility model discloses an attached drawing is the benchmark, and it is not right the utility model discloses a concrete restriction.

Referring to fig. 1-4, the embodiment discloses a trap mosquito eradication device, which is provided with a carbon dioxide generation module 1, a temperature control module 2, a humidity control module 3 and a mosquito eradication module 4 inside a casing, wherein the carbon dioxide generation module 1, the temperature control module 2 and the humidity control module 3 attract mosquitoes, and then attract the mosquitoes to the trap mosquito eradication device through the mosquito eradication module 4, and the mosquitoes are dried and dehydrated.

The ability of mosquitoes to chase blood donors depends on the tentacles and the sensors on the three pairs of legs, and the mosquitoes can detect targets according to the temperature and the humidity of human bodies and odorous chemical substances emitted by the human bodies, and heated body cells in the antennae of the mosquitoes can feel weak temperature changes. The mosquitoes can accurately judge the habitats of people and livestock beyond one hundred meters. Therefore, the utility model designs a carbon dioxide generation module 1 produces specific chemical substance, has designed temperature control module 2, 3 controlled temperature of humidity control module and humidity to the mosquito is lured in the realization of at utmost.

Specifically, the carbon dioxide generation module 1 includes a container a11 and a container B12, and carbon dioxide is generated by a reaction between the container a and a solution in the container B. Preferably, the container a11 is citric acid aqueous solution, the container B12 is sodium bicarbonate aqueous solution, and the citric acid aqueous solution and the sodium bicarbonate aqueous solution react to generate carbon dioxide, and the carbon dioxide is discharged through the carbon dioxide discharge port 10. The temperature control module 2 controls the temperature of the trapping mosquito killer to be 38-45 ℃, and the temperature changes in a preset range within a preset time. The humidity control module 3 controls the humidity of the trap type mosquito killer to be 50% -80%.

Compare the smell, the carbon dioxide triggers the more direct headwind flight of mosquito more fast, in order to optimize this trapping formula kill mosquito device's carbon dioxide reaction unit to the control factor of cooperation temperature and humidity, the utility model discloses be 20 ml/minute-200 ml/minute with the flow of carbon dioxide, this flow is far higher than other flows to the appeal of mosquito.

More preferably, the carbon dioxide generating module includes a flow control hole for controlling the flow of carbon dioxide to be 20 ml/min to 200 ml/min for optimal mosquito attracting effect. At this time, the carbon dioxide emissions of 20 ml/min to 200 ml/min are much more attractive to mosquitoes than other emissions within a hundred meters. And the discharge of carbon dioxide of 20 ml/min-200 ml/min is also better realized, the diameter of the flow control hole is 0.2-0.6mm, the discharge of carbon dioxide can be accurately controlled by matching with an electromagnetic valve, and the requirement on equipment of a carbon dioxide generation module is low.

Preferably, referring to fig. 5, the carbon dioxide generation module comprises a container A11 and a container B12, wherein the container A11 contains citric acid and water, the container B12 contains baking soda and water, and the weight ratio of the citric acid to the water is (1-2): (1-2); the weight ratio of the baking soda to the water is (1-2): (1-2), wherein the weight ratio of the citric acid to the baking soda is (1-2) to (1.1-3).

The utility model discloses a citric acid and baking soda dissolve in water after, the two reaction takes place, through the proportion of controlling citric acid and water, the proportion of baking soda and water to and the proportion of citric acid and baking soda, thereby can make baking soda fully react and avoid remaining the solid and lead to the machine to block up, and specific proportion can produce required carbon dioxide by the maximum.

More preferably, the carbon dioxide generation module comprises a container A11 and a container B12, wherein citric acid and water are filled in the container A11, baking soda and water are filled in the container B12, and the weight ratio of the citric acid to the water is 1: 1; the weight ratio of the baking soda to the water is 1:1, and the weight ratio of the citric acid to the baking soda is 1: 1.2.

The utility model discloses a citric acid and baking soda react after dissolving in water, through controlling the ratio of citric acid and water to be 1:1, the ratio of baking soda and water to be 1:1, the ratio of citric acid and baking soda is 1:1.2, can make baking soda fully react and avoid remaining the solid and lead to the machine jam, and specific ratio can produce required carbon dioxide the maximum.

For better monitoring the emission amount of carbon dioxide and optimizing the operation performance of the carbon dioxide generation module, the carbon dioxide generation module 1 comprises a container A11 and a container B12, the container A11 and the container B12 are connected through a conduit 13, the container A11 is provided with an air inlet channel 14, the air inlet channel 14 is connected with an air inflating pump 15, the container B12 is provided with an air exhaust channel 16 and a sewage discharge channel 17, and the air exhaust channel 16 is connected with a carbon dioxide discharge port 18 and a carbon dioxide discharge observation window 19. The carbon dioxide discharge port 18 is provided with a flow control hole which controls the discharge amount of carbon dioxide by a solenoid valve.

The air inlet channel 14 is provided with a one-way valve 141 and an air inlet electromagnetic valve, the guide pipe 13 connecting the container A11 and the container B12 is provided with a one-way valve 131, an air outlet electromagnetic valve 161 is arranged between the air outlet channel 16 and the carbon dioxide outlet 18 and the carbon dioxide outlet observation window 19, and the sewage discharge channel 17 is provided with a sewage discharge electromagnetic valve 171.

When a control switch of a circuit control panel is pressed, an inflating pump 15 is started, gas is introduced into an air inlet channel 14 through a one-way valve 141, the container A11 is pressurized (meanwhile, the air pressure is connected with the control panel through a pressure sensor, and when the pressure reaches a set value, the inflating pump stops working), liquid in the container A11 flows into a container B12 through a conduit 13 through a one-way valve 131, and the two liquids are mixed to generate chemical reaction to generate carbon dioxide gas. And the exhaust solenoid valve 161 opens the valve for a set period of time to bleed air as required. And after two kinds of solution reaction, need to discharge the waste liquid that has reacted to the blowdown water tank, press circuit control panel blowdown switch, the inflating pump starts, and blowdown solenoid valve 171 circular telegram is opened, and the waste liquid leans on atmospheric pressure to discharge to the blowdown water tank.

The utility model discloses a check valve avoids gas or liquid refluence, influences the normal operating of equipment. And the solenoid valve can intelligent control the time and the air input of admitting air, exhaust time and displacement to and blowdown time and blowdown volume, ensure that this equipment can steady operation, and satisfy the needs of kill mosquito under the different conditions.

The temperature is another key factor for attracting mosquitoes, the temperature of the trapping type mosquito killer controlled by the temperature control module 2 of the utility model is 38-43 ℃, and the temperature changes in the range of variation of +/-0.05-0.5℃ within 1s-5 s. Preferably, the temperature control module 2 controls the temperature of the trap type mosquito killer to be 40-43 ℃, and the temperature changes within 1-5 s in a variation range of +/-0.05-0.5 ℃.

The temperature control module 2 controls the temperature to be 38-43 ℃, and a large number of experiments show that after the temperature control module is started, the temperature of the medium at the exhaust port can reach 37-40 ℃, so that the mosquito attracting effect is better.

Moreover, according to the research discovery, the heated body cell in the mosquito antenna can experience faint temperature variation, temperature control module 2 is the small amplitude change with temperature control, stimulates the heated body cell in the mosquito antenna, lures the mosquito that makes the more distant place to judge the place of traping formula mosquito killer, and then lures numerous mosquito to be close to and catches mosquito air intake 40.

Humidity is another important factor for attracting mosquitoes, and the humidity control module 3 controls the humidity of the trap type mosquito killer to be 50% -80% because the mosquito activity degree is relatively high in this humidity range. Preferably, the humidity control module 3 controls the humidity of the trap mosquito killer to be 60-80%.

It should be noted that, the utility model discloses a temperature control module and humidity control module can adopt current any kind of temperature controller and humidometer, as long as it can realize temperature, humidity's regulation control can.

The existing simple carbon dioxide mosquito killer has a poor mosquito killing effect because mosquitoes cannot be attracted continuously. After the carbon dioxide discharge amount is optimized, the attraction of the carbon dioxide discharge amount of 20 ml/min-200 ml/min to mosquitoes is far higher than that of other discharge amounts of carbon dioxide, but the carbon dioxide discharge amount is still not ideal enough. Only after temperature change and humidity control are matched, the temperature change is utilized to continuously stimulate heated body cells in the antennae of the mosquitoes to realize continuous attraction of the mosquitoes, so that the induction rate of the mosquitoes can be improved to 90-98%. Moreover, this method works with a variety of different species of mosquitoes, except anopheles, culex and aedes. Therefore, the utility model can be used for catching mosquitoes of different species, has wide application range and ideal mosquito catching effect.

After carbon dioxide generation module 1, temperature control module 2 and humidity control module 3 attract the mosquito to catch mosquito air intake 40, the utility model discloses lure it to the traping type mosquito killer in through kill mosquito module 4 again to air-dry the dehydration extremely die. At this time, it is also one of the keys how to generate wind force that can rapidly suck mosquitoes into the machine.

The mosquito killing module 4 generates guide wind with the wind speed of 0.7-15 m/s and changes the wind speed in a preset range within a preset time, the mosquito killing module 4 comprises a fan 41, a wind guide cover 42 and a mosquito storage box 43, the fan is arranged at a mosquito catching air inlet 40, and an air outlet 44 is formed in the bottom of the shell. Preferably, the mosquito killing module 4 generates guide wind with the wind speed of 5m/s-15 m/s.

The mosquito killing module 4 generates guide wind with the wind speed of 0.7-15 m/s, and the generated wind power can rapidly attract mosquitoes to a wind guide cover 42 in the machine from a mosquito catching air inlet 40 and then reach a mosquito storage box 43 under the action of the guide wind. And, the utility model discloses set for the guide wind for the small amplitude change, the outdoor environment of simulation assists carbon dioxide generation module 1, temperature control module 2 and humidity control module 3, attracts the mosquito air intake 40 to the mosquito of catching.

Preferably, the mosquito killing module 4 generates guide wind with the wind speed of 0.7-8 m/s, and the wind speed changes within 5-10 s in a variation range of +/-1-3 m/s. Preferably, the mosquito killing module 4 generates guide wind with the wind speed of 5m/s-8m/s, and the wind speed changes within 5s-10s in a variation range of +/-1-3 m/s.

The utility model discloses a carbon dioxide takes place module 1 and produces carbon dioxide gas, it is close to and catches mosquito air intake 40 to lure the mosquito, and through temperature control module 2, humidity control module 3 cooperation work, the human breathing of simulation, the at utmost is lured the mosquito to catching mosquito air intake 40, the high-speed operation of machine built-in fan 41 produces the air current of one by catching mosquito air intake 40 flow direction storage mosquito box 43, will be close to the mosquito of catching mosquito air intake 40 and inhale in the storage mosquito box 43, and air-dry the dehydration extremely die, it is effectual to lure the mosquito, the kill mosquito effect is ideal.

In order to improve the mosquito killing effect, the utility model optimizes the guiding wind generated by the mosquito killing module 4, and improves the axial air supply amount of the fan by changing the structure of the fan, referring to fig. 6, the fan 41 comprises a plurality of fan blades 411 and a hub 412, a plurality of fan blades 411 are arranged on the peripheral wall of the hub 412 and are arranged at intervals along the circumferential direction of the hub 412, the interval of the plurality of fan blades 411 is 1/(2-3) of the width of the fan blades, the inclination angle α between the fan blades 411 and the hub 412 is 45-60 degrees (as shown in fig. 7), a plurality of through holes 413 are arranged inside the hub 412, preferably, the hole diameter of the through hole 413 is 0.5-3mm, more preferably, and the hole diameter of the through hole 413 is 1-2 mm.

The fan has set up special flabellum interval, and flabellum inclination to be equipped with a plurality of through-holes that run through in wheel hub's inside, can increase the axial air supply volume of kill mosquito module, guarantee that the mosquito can air-dry the dehydration extremely die fast, perhaps just can dizzy extremely die in data send process, avoid its escape, improve kill mosquito efficiency.

The mosquito storage box 43 includes a mosquito storage net and an escape prevention funnel (not shown) so that mosquitoes introduced into the mosquito storage box cannot escape.

The working principle of the utility model is as follows:

the utility model starts the inflating pump 15 by controlling the switch, the air is introduced into the air inlet channel 14 through the one-way valve 141, the pressure is applied to the container A11, the liquid in the container A11 flows into the container B12 through the one-way valve 131 and the conduit 13, the two liquids are mixed to generate the chemical reaction, and the carbon dioxide is generated;

meanwhile, the temperature of the trapping mosquito killer is controlled to be 38-43 ℃ through the temperature control module 2, temperature change is carried out within 1-5 s in a variation range of +/-0.05-0.5 ℃, the humidity of the trapping mosquito killer is controlled to be 60-80% through the humidity control module 3, and mosquitoes are attracted to the position near the mosquito catching air inlet 40;

then, the built-in fan 41 of the machine runs at a high speed to generate an airflow flowing from the mosquito catching air inlet 40 to the mosquito storage box 43, mosquitoes close to the mosquito catching air inlet 40 are sucked into the mosquito storage box 43 through the air guide cover 42, and the mosquitoes are dried and dehydrated to death, so that the purpose of killing mosquitoes is achieved. The mosquito storage box 43 can be internally provided with a mosquito luring agent to increase the mosquito luring and killing effect of the mosquito killer.

The mosquito killing effect experiment is carried out by setting different carbon dioxide flow, temperature, humidity and wind speed as follows:

the parameter settings adopted by the first embodiment are shown in the first table:

it should be noted that examples 1 to 7 and comparative examples 1 to 5 each employ the fan of the present invention, and comparative examples 6 and 7 employ a general fan.

Secondly, the mosquito killing effect experiment comprises the following operation steps:

1. 10 pots of green plants with the height of about 1.5 m, 16 pots of small potted plants and an anti-mosquito ventilation screen window arranged on the window are placed in a test room (about 100 flat rooms), and the outdoor environment is simulated.

2. 2 mosquito killers are placed in the room, the mosquito killers are plugged in a power supply to normally work, and the mosquito killers are evenly placed in the room.

3. Mosquito killer parameters are set according to the table above, and each group of examples-comparative examples is tested simultaneously, wherein one mosquito killer is set according to the parameters of the examples, and the other mosquito killer is set according to the parameters of the comparative examples.

4. A certain amount of mosquitoes (300 non-blood-imbibed female adult mosquitoes at 3-5 days of age) were placed in the test room and the experimental conditions were recorded.

After 5.24h, the mosquito killer can be replaced, the number of caught mosquitoes can be recorded, and the mosquito amount in the test room can be supplemented (the mosquito amount is consistent with the initial mosquito amount as much as possible).

6. The test period was 35 days, and the test period for each set of examples-comparative examples was 5 days.

Thirdly, the mosquito killing effect experiment result is as follows:

the test time is one month, the indoor temperature is 25-36 deg.C, and the humidity is 52-78%. The test results are as follows

Note that the mosquito catching rate in the table means a 5-day test integrated mosquito catching rate, and the mosquito catching rate is the total mosquito catching number/1500.

As can be seen from the above table, tests prove that when the temperature control module controls the temperature of the trap mosquito killer to be 38-45 ℃ and the temperature changes within 1-5 s in a variation range of +/-0.05-0.5℃, the humidity of the trap mosquito killer is controlled to be 60-80% by the humidity control module, and the flow of carbon dioxide generated by the carbon dioxide generation module is 20-200 ml/min. By the synergistic effect of the three components and the guide wind with the wind speed of 0.7-15 m/s, 80-95% of mosquitoes are ensured to be attracted into the trap type mosquito killer.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (10)

1. A trapping mosquito killer is characterized by comprising a carbon dioxide generation module, a temperature control module, a humidity control module and a mosquito killing module, wherein mosquitoes are attracted by the carbon dioxide generation module, the temperature control module and the humidity control module, are attracted into the trapping mosquito killer through the mosquito killing module, and are dried and dehydrated to death,

the carbon dioxide generation module generates carbon dioxide;

the temperature control module controls the temperature of the trapping mosquito killer to be 38-45 ℃, and the temperature changes in a preset range within a preset time;

the humidity control module controls the humidity of the trap type mosquito killer to be 50% -80%;

the mosquito killing module generates guide wind with the wind speed of 0.7-15 m/s.

2. A trap mosquito killer according to claim 1, wherein the carbon dioxide generating module includes a flow control hole controlling the flow of the carbon dioxide to be 20 ml/min to 200 ml/min.

3. A trap mosquito killer according to claim 2, wherein said flow control hole has a diameter of 0.2-0.6 mm.

4. A trap mosquito killer according to claim 1, wherein the carbon dioxide generating module comprises a container a and a container B, the container a and the container B are connected by a conduit, the container a is provided with an air inlet passage, the air inlet passage is connected with an air pump, the container B is provided with an air exhaust passage and a sewage exhaust passage, the air exhaust passage is connected with a carbon dioxide discharge port and a carbon dioxide discharge observation window.

5. A trap mosquito killer according to claim 4, wherein said air inlet passage is provided with a check valve, said pipe connecting container A and container B is provided with a check valve, an exhaust solenoid valve is provided between said exhaust passage and the carbon dioxide discharge port and the carbon dioxide discharge observation window, and said blowdown passage is provided with a blowdown solenoid valve.

6. A trap mosquito killer according to claim 1, wherein the temperature control module controls the temperature of the trap mosquito killer to be 38 ℃ -43 ℃ and temperature variation occurs with a variation range of ± (0.05-0.5) ° c within 1s-5 s.

7. A trap mosquito killer according to claim 1, wherein the humidity control module controls the humidity of the trap mosquito at 60% -80%.

8. A trap mosquito killer according to claim 1, wherein said mosquito killing module generates a guide wind having a wind speed of 0.7m/s to 8m/s and the wind speed variation occurs in a variation of ± 1 to 3 m/s within 5s to 10 s.

9. A trap mosquito killer according to claim 1, wherein the mosquito killing module comprises a fan, a wind scooper and a mosquito storage box;

the fan comprises a plurality of fan blades and a hub, the fan blades are arranged on the peripheral wall of the hub and are arranged at intervals along the circumferential direction of the hub, the interval between the fan blades is 1/(2-3) of the width of the fan blade, the inclination angle between the fan blades and the hub is 45-60 degrees, and a plurality of through holes are formed in the hub.

10. A trap mosquito killer according to claim 9, wherein the mosquito storage box comprises a mosquito storage net and an anti-escape funnel.

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