CN210630477U - Multi-way induction bionic mosquito killer - Google Patents

Abstract

The utility model discloses a multi-mode induction bionic mosquito killer, which comprises an outer box, a porous adhesive paper, a clapboard and a carbon dioxide generator; a plurality of first air outlet holes are formed in the porous adhesive paper; a plurality of second air outlet holes and third air outlet holes are formed in the partition plate; the size of the first air outlet is smaller than that of the second air outlet and that of the third air outlet; the outer box comprises a first box body and a second box body; the carbon dioxide generator is arranged in the first box body; a mosquito trapping agent is arranged in the second box body; the carbon dioxide generator is provided with an air outlet pipe and an electromagnetic valve for controlling the air outlet pipe to be opened and closed periodically. Implement the utility model discloses, can promote by a wide margin and lure the mosquito effect, and then promote and catch mosquito efficiency.

Description

Multi-way induction bionic mosquito killer

Technical Field

The utility model relates to an insect field of catching especially relates to an induced bionical mosquito killer of multimode.

Background

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. Mosquito killing needs to be combined with the habit of mosquitoes, so that a good effect can be achieved.

At present, a plurality of mosquito killing products exist in the market, and the mosquito killing principle is mainly divided into two types of chemical method mosquito killing and physical method mosquito killing. The mosquito is lured to physics kill mosquito is the adoption ultraviolet light mostly, then inhales the mosquito storage device through the device that induced drafts with the mosquito that is close to, then air-dries and dies (like chinese patent CN204634822U), but this kind of mosquito killer lure the mosquito effect relatively poor, and especially when having the people indoor, the mosquito hardly receives the attraction of light, and there is light pollution in the mosquito killer lamp, influences people's rest.

The other method is a chemical mosquito killing method, which mainly utilizes chemical reagents to kill mosquitoes, most of which contain alexan and the like, belong to the pesticide management category, are harmful to human bodies and pollute the environment.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a multimode induction bionic mosquito killer is provided, it lures the mosquito means various, lures the mosquito respond well, simple structure, convenient to use simultaneously.

In order to solve the technical problem, the utility model provides a multi-mode induction bionic mosquito killer, which comprises an outer box, a porous adhesive paper, a clapboard and a carbon dioxide generator;

a plurality of first air outlet holes are formed in the porous adhesive paper; a plurality of second air outlet holes and third air outlet holes are formed in the partition plate; the size of the first air outlet is smaller than that of the second air outlet and that of the third air outlet;

the outer box comprises a first box body and a second box body; the carbon dioxide generator is arranged in the first box body; a mosquito trapping agent is arranged in the second box body;

the carbon dioxide generator is provided with an air outlet pipe and an electromagnetic valve for controlling the air outlet pipe to be opened and closed periodically.

As an improvement of the technical scheme, the adhesive paper sticking device further comprises a support and a protective cover for supporting the adhesive paper.

As an improvement of the technical scheme, the inner side of the second box body is provided with a heating device, and the lower part of the second box body is provided with a sewage draining outlet.

As an improvement of the above technical solution, the partition plate includes a first partition plate and a second partition plate;

the first partition board is tightly matched with the first box body to form a closed space; the carbon dioxide generator is arranged in the closed space; the first clapboard is provided with at least one second air outlet hole.

As an improvement of the above technical scheme, a plurality of third air outlets are uniformly distributed on the second clapboard at intervals.

As an improvement of the technical scheme, a detachable first bottom plate is arranged at the bottom of the first box body; a detachable second bottom plate is arranged at the bottom of the second box body; the outer box is rectangular or cylindrical.

As an improvement of the technical scheme, the size of the first air outlet is 1.5-3mm, and the size of the second air outlet is 5-15 mm.

As an improvement of the above technical scheme, the carbon dioxide generator comprises a first container, a second container, an air pump, a connecting pipe, an air outlet pipe and an electromagnetic valve; the first container and the second container are connected through the connecting pipe; the air pump is connected with the first container; the air outlet pipe and the electromagnetic valve are connected with the second container.

As an improvement of the above technical solution, a first branch pipe is arranged in the first container, the top end of the first branch pipe is connected with the connecting pipe, and the bottom end of the first branch pipe extends to the bottom of the first container;

and a second branch pipe is arranged in the second container, the top end of the second branch pipe is connected with the connecting pipe, and the bottom end of the second branch pipe extends to the bottom of the second container.

As an improvement of the above technical solution, the carbon dioxide generator further comprises a main body bracket; the first container and the second container are fixed on the main body bracket; the air pump, the connecting pipe, the air outlet pipe and the electromagnetic valve are all arranged above the main body bracket;

the height of the main body support is larger than that of the air pump, the connecting pipe, the air outlet pipe and the electromagnetic valve.

Implement the utility model discloses, following beneficial effect has: the utility model simulates human skin through the porous sticky paper, and provides heat through the heating device arranged below the porous sticky paper; providing a sweat smell simulating effect by the mosquito attractant and attracting mosquitoes by the carbon dioxide stream generated by the carbon dioxide generator; the mosquito trapping effect is good. Meanwhile, the electromagnetic valve is arranged on the carbon dioxide generator, and the outlet pipe of the carbon dioxide generator can be controlled to be opened and closed periodically, so that the effect of simulating human body breathing is achieved, and the mosquito trapping effect is further enhanced.

Drawings

FIG. 1 is a schematic structural view of a multi-mode induced bionic mosquito killer of the present invention;

FIG. 2 is an exploded view of the multi-mode induction bionic mosquito killer of the present invention;

FIG. 3 is a schematic structural diagram of the carbon dioxide generator of the present invention;

fig. 4 is a cross-sectional view of the carbon dioxide generator of fig. 3.

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.

See fig. 1 and 2; the utility model discloses a bionic mosquito killer, which comprises an outer box 1, and a porous adhesive paper 2, a carbon dioxide generator 3 and a clapboard 4 which are arranged in the outer box 1; the porous adhesive paper 2 is provided with a plurality of first air outlet holes 21.

Specifically, the outer box 1 includes a first box 11 and a second box 12; the carbon dioxide generator 3 is arranged in the first box body 11; the second box 12 is added with mosquito attractant. The carbon dioxide generator 3 is provided with an air outlet pipe 31 and an electromagnetic valve 32 for controlling the air outlet pipe to be opened and closed periodically; the electromagnetic valve 32 is matched with the air outlet pipe 31 to simulate the breathing of a human body; sweat can be simulated by the inducer; thereby leading the bionic mosquito killer to be similar to the skin of a human body and greatly increasing the induction effect on the mosquito.

Further, a bracket 5 for supporting the adhesive paper 2 is arranged between the partition plate 4 and the porous adhesive paper 2.

Specifically, the porous adhesive paper 2, the carbon dioxide generator 3 and the second box body 12 are separated by a partition plate 4, and at least one second air outlet hole 41 and a plurality of third air outlet holes 42 are formed in the partition plate; the second air outlet holes 41 are distributed above the first box body 11, and the third air outlet holes 42 are distributed above the second box body 12; the second outlet hole 41 and the third outlet hole 42 have a size larger than that of the first outlet hole 21. The carbon dioxide that carbon dioxide generator 3 produced, the cooperation of the smell accessible second venthole, third venthole and first venthole that the inducer produced, during even giving off the environment, the reinforcing lures the mosquito effect. Preferably, the size of the first air outlet is 1.5-3mm, the size of the second air outlet is 5-15mm, and further preferably, the size of the first air outlet is 1.5-2mm, and the size of the second air outlet is 10-15 mm; the first air outlet hole and the second air outlet hole have better matching effect. (the dimension here can be understood as the width, if the outlet hole is circular, the diameter, if the outlet hole is square, the side length, if the outlet hole is rectangular, the length of the long side, and the like.)

In order to enhance the dispersion effect of the inducer, a heating device 13 (not shown in the figures) is also provided in the second tank 12.

Specifically, the partition plate 4 of the present invention includes a first partition plate 43 and a second partition plate 44; the width and length of the first partition 43 are substantially the same as those of the first box 11, so that the first partition 43 is tightly matched with the first box 11 to form a closed space; the carbon dioxide generator 3 is located in the enclosed space, which facilitates the uniform dispersion of carbon dioxide. In order to further enhance the dispersion effect of the gas, 5 second air outlets 41 are formed on the first partition plate 43 and are respectively positioned at the four corners and the center of the first partition plate 43; in addition, the size of controlling first venthole is 1.5 ~ 3mm, and the size of second venthole is 5 ~ 15mm, also can strengthen the dispersion, and the reinforcing lures the mosquito effect. A plurality of third air outlet holes 42 are uniformly arranged on the second clapboard 44 which is positioned above the second box body 12 at intervals; can enhance the dispersion effect of the inducer.

A first bottom plate and a second bottom plate (not shown in the figures) are respectively arranged at the bottoms of the first box body 11 and the second box body 12, and the first bottom plate and the second bottom plate are detachably connected with the first box body 11 and the second box body 12; when the reactants and inducer in the carbon dioxide generator 3 are exhausted, the carbon dioxide generator can be taken out, and the reactants and the inducer can be added. In addition, the bottom of the second box body is also provided with a sewage draining outlet 14 which can drain redundant inducer. The outer case 1 may be a rectangular parallelepiped or a cylindrical shape as a whole, but is not limited thereto.

Specifically, the porosity of the porous adhesive paper 2 is 0.5 per thousand to 1 percent; the upper part of the paper is evenly coated with pest sticking glue, a layer of release paper (also called release paper) is covered on the glue, and the release paper is torn off when in use. The protective cover 6 is arranged above the porous sticky paper 2, so that dust and sundries can be effectively prevented from falling onto the porous sticky paper 2, and the mosquito sticking effect of the porous sticky paper is reduced.

Referring to fig. 3 and 4, the carbon dioxide generator in the present embodiment includes a control device 33, a first container 34, a second container 35, an air pump 36, a connection pipe 37, an air outlet pipe 31, and an electromagnetic valve 32; the first container 34 and the second container 35 are bottle bodies, and are used for containing acid liquor and alkali liquor respectively. The two ends of the connection pipe 37 are hermetically connected to the top of the first container 34 and the second container 35, respectively. The air pump 36 is connected to the first container 34; the air outlet pipe 31 and the electromagnetic valve 32 are connected to the second container 35; the air pump 36 and the electromagnetic valve 32 are controlled by the control device 33. When the carbon dioxide generator in the embodiment is used, the air pump 36 is used for pressurizing the first container 34, so that the acid liquid in the first container is pressed into the alkali liquid in the second container, and then the carbon dioxide is generated through reaction.

The first container 34 is further provided with a first branch 341, a pressure sensor 342 and a relief valve 343; the pressure sensor 343 and the safety valve 343 are both connected to the first branch 341; the pressure sensor 343 is used to detect the pressure of the first container 34; when the pressure is higher than a certain value, stopping pressurizing by the air pump; when the pressure in the first container is too high, the safety valve 343 opens automatically to exhaust and reduce the pressure.

The first container 34 is also provided with a second branch pipe 344 and a filtering device 345; the second branch pipe 344 is connected at the top end thereof to the connection pipe 37 and extends at the bottom end thereof to the bottom of the first container 34. A filter device 345 is mounted to the bottom end of the second branch pipe 344.

The third branch pipe 351 is arranged in the second container 35, the top end of the third branch pipe 351 is connected with the connecting pipe 37, and the bottom end of the third branch pipe 351 extends to the bottom of the second container 35, so that the acid liquor from the first container 34 is fully contacted with the alkali liquor in the second container, and the reaction efficiency is improved.

Further, the first container 34 and the second container 35 are respectively provided with a liquid exchange port (not shown in the drawings) to facilitate liquid exchange. The first container 34 and the second container 35 are transparent bottles, and the liquid level in the bottles can be observed.

In this embodiment, the carbon dioxide generator further comprises a main body support 38; the first container 34 and the second container 35 are fixed on the main body bracket 38; the air pump 36, the connecting pipe 37, the air outlet pipe 31 and the electromagnetic valve 32 are all arranged above the main body support 38; the upper part of the main body bracket 38 is connected with the clapboard 4; the height of the air pump is greater than that of the air pump, the connecting pipe, the air outlet pipe and the electromagnetic valve.

Simultaneously, this embodiment still discloses a mosquito attractant, and it comprises following raw materials by weight: 0.2-0.5 part of lactic acid, 1.0-1.5 parts of sugar, 2.5-5 parts of alcohol, 0.05-0.1 part of preservative, 0-0.1 part of attractant, 0.5-2 parts of ammonium carbonate, 0.1-0.3 part of surfactant and 90-97 parts of water.

Wherein the sugar is one or more of lactose, glucose and sucrose; the preservative is one or more of food-grade sodium diacetate, sodium benzoate and potassium sorbate. The attractant is one or more of caprylic acid, acetic acid, caproic acid and malic acid; the surfactant is one or more of disodium lauryl sulfosuccinate, monolauryl phosphate and isomeric tridecanol polyoxyethylene ether. The raw materials and reagents are all commercial products.

The utility model discloses a bionical mosquito agent of luring mainly utilizes above-mentioned reagent combined action to produce the smell that can attract the mosquito, like lactic acid, alcohol, ammonia smell etc. and each composition is nontoxic environmental protection, and the material that the reaction produced is also nontoxic environmental protection moreover. The utility model discloses a bionical mosquito agent that lures is through the reasonable control to the composition to set up a plurality of induction factors, reached bionical effect, can attract the mosquito more effectively.

The existing bionic sweat is mainly a mixture of water, sodium chloride, urea, lactic acid and fatty acid; however, the utility model discloses a utility model people found through a large amount of experiments that although the sweat contains a certain amount of urea and sodium chloride, it does not have apparent effect to induced mosquito. Other organic acids such as lactic acid have good mosquito induction effect. Therefore, the utility model can lure mosquitoes through the compounding of alcohol, lactic acid and other organic acids (malic acid, acetic acid, etc.).

Because the mosquito trapping agent system of the utility model takes organic matters such as organic acid, alcohol and the like as main bodies, a certain amount of surfactant is added in the formula, so that the main bodies of the organic matters are uniformly dispersed in water. Furthermore, in order to enhance the mosquito trapping effect of the bionic mosquito trapping agent, alcohol and ammonium carbonate are added in the formula, so that the bionic mosquito trapping agent has strong volatility; helps to promote the taste diffusion of the mosquito attractant.

The working principle of the bionic mosquito killer in the embodiment is as follows:

respectively adding acid liquor and alkali liquor into the first container and the second container; pressing the reaction liquid in the first container into a second container through an air pump, and reacting to form carbon dioxide; and the carbon dioxide enters a closed space formed by the first box body of the first clapboard through an air outlet pipe arranged on the second container and overflows from the second air outlet hole after being forcedly dispersed by the first clapboard. Meanwhile, the inducer arranged in the second box body is heated by the heating device and then is emitted from the third air outlet; forming a mixture of carbon dioxide and an inducer gas; then the air overflows from first air outlets distributed on the porous adhesive paper; thereby playing the role of simulating the skin of a human body and enhancing the mosquito trapping effect; when the mosquito is induced to the sticky paper, the mosquito is stuck by the sticky paper, so that the aim of killing the mosquito is fulfilled.

Furthermore, the electromagnetic valve on the carbon dioxide generator can control the periodic release of the mixture, simulate the human breathing effect and improve the mosquito trapping effect.

The following description is given with reference to specific examples:

example 1 mosquito-attracting Effect of mosquito-attracting agent

The embodiment provides a mosquito attractant which is prepared from the following raw materials in parts by weight: 0.3 part of lactic acid, 1.2 parts of glucose, 0.05 part of sodium benzoate, 0.02 part of malic acid, 1 part of ammonium carbonate, 4.5 parts of alcohol, 0.15 part of monolauryl phosphate and 92.78 parts of water.

Example 2 mosquito-attracting Effect of mosquito-attracting agent

The embodiment provides a mosquito attractant which is prepared from the following raw materials in parts by weight: 0.4 part of lactic acid, 1.4 parts of cane sugar, 0.55 part of potassium sorbate, 0.08 part of acetic acid, 1.5 parts of ammonium carbonate, 3 parts of alcohol, 0.2 part of isomeric tridecanol polyoxyethylene ether and 92.87 parts of water.

Example 3

The embodiment provides a multi-mode induction bionic mosquito killer which comprises an outer box, porous adhesive paper, a partition plate and a carbon dioxide generator; the outer box comprises a first box body and a second box body; the carbon dioxide generator is arranged in the first box body; the second box body is internally provided with a mosquito trapping agent.

The formulation of the mosquito attractant was the same as in example 2.

Comparative example 1 mosquito-trapping effect of existing bionic sweat

The formula of the bionic sweat is as follows: 0.3 part of sodium chloride, 0.5 part of urea, 0.7 part of lactic acid, 0.5 part of fatty acid and 98 parts of water.

Comparative example 2

The photocatalyst mosquito killer commonly used in the market is selected as a contrast.

The mosquito trapping agents in the embodiments 1 and 2 and the comparative example 1 are put into the second box body of the bionic mosquito killer, but the carbon dioxide generator is not arranged in the first box body; mosquito trapping experiments were performed. The mosquito killers of example 3 and comparative example 2 were subjected to a mosquito catching experiment.

The main steps of the specific experiment are as follows:

1. and controlling the temperature and the humidity of a test room, wherein the temperature is controlled to be 25-30 ℃, and the humidity is controlled to be 55-75%.

2. The mosquito traps of the control group and the experimental group were placed in the corners of the test room at different positions, respectively.

3. The bionic mosquito attractant is placed in the mosquito trap of the experimental group.

4. A certain amount of mosquitoes (60) were placed in the test room and the experimental conditions were recorded.

5. After 24h, the positions of the two mosquito traps were changed, and the number of captured mosquitoes was recorded, and the number of mosquitoes in the room was kept to be 60 mosquitoes per test.

6. Repeating the operation of the step 5, and performing the experiment for seven days; and records the relevant data.

The results of the experiment are as follows:

as can be seen from the upper surface, the multi-mode induced bionic mosquito killer has obvious mosquito-luring effect and good mosquito-killing effect. As can be seen from the comparison between examples 1 and 2 and comparative example 1, the mosquito attractant of the present invention has a good mosquito attracting effect. It can be seen from the comparison of embodiment 1, 2 and embodiment 3 that the compound of adopting carbon dioxide and luring mosquito agent can improve by a wide margin the utility model discloses well mosquito killer lures the mosquito effect, is that the average kill mosquito rate of embodiment 3's kill mosquito rate than embodiment 1, 2 has improved 11.88%.

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 multi-mode induction bionic mosquito killer is characterized by comprising an outer box, porous adhesive paper, a partition plate and a carbon dioxide generator;

a plurality of first air outlet holes are formed in the porous adhesive paper; a plurality of second air outlet holes and third air outlet holes are formed in the partition plate; the size of the first air outlet is smaller than that of the second air outlet and that of the third air outlet;

the outer box comprises a first box body and a second box body; the carbon dioxide generator is arranged in the first box body; a mosquito trapping agent is arranged in the second box body;

the carbon dioxide generator is provided with an air outlet pipe and an electromagnetic valve for controlling the air outlet pipe to be opened and closed periodically.

2. The multimode-induced biomimetic mosquito killer of claim 1, further comprising a support and a protective cover for supporting the adhesive paper.

3. The multimode induction bionic mosquito killer as claimed in claim 1, wherein a heating device is arranged inside the second box body, and a sewage draining exit is arranged at the lower part of the second box body.

4. The multimode-induced biomimetic mosquito killer of claim 1, wherein the partition comprises a first partition and a second partition;

the first partition board is tightly matched with the first box body to form a closed space; the carbon dioxide generator is arranged in the closed space; the first clapboard is provided with at least one second air outlet hole.

5. The multimode-induction bionic mosquito killer of claim 4, wherein a plurality of third air outlets are uniformly distributed on the second partition plate at intervals.

6. The multimode-induction bionic mosquito killer of claim 4, wherein a detachable first bottom plate is arranged at the bottom of the first box body; a detachable second bottom plate is arranged at the bottom of the second box body; the outer box is rectangular or cylindrical.

7. The multimode-induction bionic mosquito killer of claim 5, wherein the size of the first air outlet is 1.5-3mm, and the size of the second air outlet is 5-15 mm.

8. The multimode-induction bionic mosquito killer of claim 1, wherein the carbon dioxide generator comprises a first container, a second container, an air pump, a connecting pipe, an air outlet pipe and an electromagnetic valve; the first container and the second container are connected through the connecting pipe; the air pump is connected with the first container; the air outlet pipe and the electromagnetic valve are connected with the second container.

9. The multimode-induction bionic mosquito killer as claimed in claim 8, wherein a first branch pipe is arranged in the first container, the top end of the first branch pipe is connected with the connecting pipe, and the bottom end of the first branch pipe extends to the bottom of the first container;

and a second branch pipe is arranged in the second container, the top end of the second branch pipe is connected with the connecting pipe, and the bottom end of the second branch pipe extends to the bottom of the second container.

10. The multimode-induced biomimetic mosquito killer of claim 8, wherein the carbon dioxide generator further comprises a body support; the first container and the second container are fixed on the main body bracket; the air pump, the connecting pipe, the air outlet pipe and the electromagnetic valve are all arranged above the main body bracket;

the height of the main body support is larger than that of the air pump, the connecting pipe, the air outlet pipe and the electromagnetic valve.

Images