CN109497010B - Fluorescent mosquito trapping and killing device with mosquito trapping function - Google Patents

Abstract

The invention relates to a fluorescent mosquito trapping and killing device with a mosquito trapping function, and belongs to the technical field of daily necessities. The invention discloses a fluorescent mosquito trapping and killing device with a mosquito trapping function, which comprises a container with an internal cavity, wherein the container is provided with an opening for mosquitoes to enter; the container is made of fluorescent resin material, the container can generate continuous blue fluorescence under the irradiation of sunlight or a fluorescent lamp, and the inner wall of the container is coated or embedded with a lining material, and the lining material can volatilize a substance containing pyrethroid. The mosquito trapping and killing device with the mosquito trapping and killing fluorescence can generate continuous blue fluorescence under the irradiation of sunlight or a fluorescent lamp, the emitted blue fluorescence is high in brightness, indoor mosquitoes can be attracted into the device, and the mosquitoes can be killed by utilizing the volatile pyrethroid, and the volatile pyrethroid is mainly concentrated in the mosquito trapping and killing device with the mosquito trapping and killing fluorescence, and the concentration of the periphery of the exterior of the mosquito trapping and killing device is low, so that the mosquito trapping and killing device is good in safety and does not need to consume electric energy.

Description

Fluorescent mosquito trapping and killing device with mosquito trapping function

Technical Field

The invention relates to the technical field of daily necessities, in particular to a fluorescent mosquito trapping and killing device with a mosquito trapping function.

Background

Mosquitoes belong to the family of the order diptera of the class insecta and there are about 3500 species worldwide, of which anopheles, aedes and culex are the best known, and usually females take blood as food. Female mosquitoes sucking blood are intermediate hosts of pathogens such as dengue fever, malaria, filariasis, japanese encephalitis, etc., and according to WHO statistics, millions of people die each year due to dengue fever, malaria, and most affected are children under 5 years old, and vaccination is not currently available, and mosquito control and indoor mosquito eradication are available methods for preventing the above-mentioned diseases.

In prior art, utilize the light drive nature of mosquito, can trap the mosquito through the light of certain wavelength and kill the purpose that realizes kill mosquito, however this kind of kill mosquito device need be equipped with ultraviolet LED light source usually, and not only the cost is higher, consumes the electric energy when using moreover, and ultraviolet ray still has irritability and injury to the human eye, therefore is applied to the field usually, is difficult to popularize and apply indoor. In the prior art, mosquito is usually repelled and killed by mosquito incense, however, chemical medicine released by burning mosquito incense is difficult to directly kill mosquito due to low concentration of effective components, and fine particles generated by burning can cause indoor air pollution in a closed environment. In order to solve the problem of fine particles generated by burning of the mosquito-repellent incense, the prior art also develops the liquid mosquito-repellent incense, the electric heating mosquito-repellent incense, and the active ingredients of the liquid mosquito-repellent incense and the electric heating mosquito-repellent incense are the same as the traditional mosquito-repellent incense and are chemical preparations with insecticidal ingredients (mainly insecticidal pyrethrins), however, the liquid mosquito-repellent incense and the electric heating mosquito-repellent incense release the phenomenon of serious allergy such as sore throat, nasal obstruction, dizziness, nausea and the like when being used in a closed room according to detection.

Disclosure of Invention

In order to solve the above technical problems in the prior art, the present invention provides a fluorescent mosquito trapping and killing device.

The fluorescent mosquito trapping and killing device with the mosquito trapping function comprises a container with an inner cavity, wherein an opening for allowing a mosquito to enter is formed in the container; the method is characterized in that: the container is made of a fluorescent resin material, can generate continuous blue fluorescence under the irradiation of sunlight or a fluorescent lamp, and is coated or embedded with a lining material on the inner wall of the container, and the lining material can volatilize a substance containing pyrethroid.

Wherein the thickness of the lining material is 100-; the surface area of the lining material is 5-1000cm²Preferably 20 to 200cm²。

Wherein the lining material comprises 0.5-20.0 wt% of pyrethroid insecticide and 80.0-99.5 wt% of polyvinyl alcohol.

Wherein the pyrethroid insecticide comprises a zeolite carrier and pyrethroid adsorbed in the zeolite carrier.

The pyrethroid can be selected from permethrin, cyfluthrin, deltamethrin, cyfluthrin or fenvalerate, for example.

Wherein the container is molded by a fluorescent resin material through compression molding, and the fluorescent resin material includes: 0.5 to 5.0wt% of a phosphor pigment, 10.0 to 30.0wt% of a fine silica powder, 0.5 to 1.5wt% of a triazine thiol compound, 0.5 to 1.0wt% of a pyrimidine compound, and 65.0 to 88.0wt% of a transparent resin.

Wherein the transparent resin is selected from methacrylic resin, acrylic resin, polycarbonate or epoxy resin.

Wherein, the triazine thiol compound can be selected from 1,3, 5-triazine-2, 4, 6-trithiol, 1,3, 5-triazine-2, 4, 6-trithiol triethanolamine or 6-dithiooctyl amino-1, 3, 5-triazine-2, 4-dithiol.

Wherein the phosphor pigment is selected from BaMg₂Al₁₆O₂₇:Eu，CaMgSi₂O₆Eu or CaAl₂O₄Eu.

Compared with the closest prior art, the fluorescent mosquito trapping and killing device with the mosquito trapping function has the following beneficial effects:

the mosquito trapping and killing device with the mosquito trapping and killing fluorescence can generate continuous blue fluorescence under the irradiation of sunlight or a fluorescent lamp, the emitted blue fluorescence is high in brightness, indoor mosquitoes can be attracted into the device, and the mosquitoes can be killed by utilizing the volatile pyrethroid, and the volatile pyrethroid is mainly concentrated in the mosquito trapping and killing device with the mosquito trapping and killing fluorescence, and the concentration of the periphery of the exterior of the mosquito trapping and killing device is low, so that the mosquito trapping and killing device is good in safety and does not need to consume electric energy.

Detailed Description

The fluorescent mosquito trapping and killing device with mosquito attracting function of the present invention will be further described with reference to the following embodiments, in order to make the technical solution of the present invention more complete and clear.

The invention discloses a fluorescent mosquito trapping and killing device with a mosquito trapping function, which comprises a container with an internal cavity, wherein the container is provided with an opening for mosquitoes to enter; the container is made of a fluorescent resin material, can generate continuous blue fluorescence under the irradiation of sunlight or a fluorescent lamp, and is coated or embedded with a lining material on the inner wall of the container, and the lining material can volatilize a substance containing pyrethroid. In the present invention, the thickness of the lining material is 100-; the surface area of the lining material is 5-1000cm²Preferably 20 to 200cm². The lining material comprises 0.5-20.0 wt% of pyrethroid insecticide and 80.0-99.5 wt% of polyvinyl alcohol. The pyrethroid insecticide comprises a zeolite carrier and pyrethroid adsorbed in the zeolite carrier. The lining material may volatilize pyrethroids at or above room temperature and maintain a high concentration in the container capable of killing mosquitoes induced into the container by fluorescence. The container of the present invention can be made of a fluorescent resin material by injection molding, die casting or extrusion molding to obtain a desired shape. The container is in the shape of bowl, box, bottle, cylinder or cup. In use, the container of the invention may be placed on a flat surface in a room, for example on a flat surface of a tea table, a table top in a living room, a wash stand in a kitchen or toilet, a windowsill, a table top, a cupboard top, a counter top, a tripod, a bath towel holder or the like, and thus the bottom surface of the container of the invention is generally planar. In addition, in the present invention, the container may be further disposed on a flower shelf, a stand, a hanger, etc., and thus the bottom surface of the container may be non-flat, for example, the container may be attached to the flower shelf, the stand, etcThe trough of (a) may be of a matching shape or suspended from a hanger, whereby the bottom of the container may be of any shape. The container may be provided with a lining material on the wall or on the top for adding or replacing pyrethroid loaded, and the diameter of the opening may be designed according to the size of the lining material. In the present invention, the pyrethroid may be selected from allethrin, deltamethrin, cypermethrin, permethrin or cyfluthrin, or a mixture thereof. The pyrethroid has the characteristics of high efficiency, low toxicity, biodegradability and the like, and the mosquito killing capacity of the pyrethroid is 10-100 times of that of insecticides such as organic chlorine, organic phosphorus, carbamate and the like. In addition, the lining material of the present invention may contain additives other than pyrethroids and polyvinyl alcohol, for example, an inducer may be added to further enhance the mosquito-attracting effect; in addition, the product can be used in toilet, and can be added with aromatic.

In the present invention, the container is molded by compression molding from a fluorescent resin material including: 0.5 to 5.0wt% of a phosphor pigment, 10.0 to 30.0wt% of a fine silica powder, 0.5 to 1.5wt% of a triazine thiol compound, 0.5 to 1.0wt% of a pyrimidine compound, and 65.0 to 88.0wt% of a transparent resin. The transparent resin is not particularly limited, and for example, a methacrylic resin, an acrylic resin, a polycarbonate resin, an epoxy resin, or the like may be selected from the transparent resin, and an antioxidant, a light stabilizer, a lubricant, other additives, or the like may be added to the fluorescent resin material of the present invention, in consideration of cost and stability. In the present invention, the phosphor pigment can excite blue fluorescence under the irradiation of sunlight or fluorescent light, and the phosphor pigment can be selected from BaMg, for example₂Al₁₆O₂₇:Eu，CaMgSi₂O₆Eu or CaAl₂O₄At least one of Eu, for example, BaMg which is commonly used may be selected₂Al₁₆O₂₇Eu or including BaMg₂Al₁₆O₂₇Eu mixture. In the invention, the addition of the silicon micropowder is beneficial to enhancing the strength of the container, and the silicon micropowderThe content of the powder is not more than 30 wt%, the fluorescent property is not substantially affected, and the dispersed silica powder is beneficial to transmitting light to the inside of the container through diffuse scattering and is beneficial to the fluorescence of the inside of the container and the outer surface of the container, and in the invention, the particle size of the silica powder is not particularly limited, and can be below 50 μm, for example, 0.1-50 μm. The fluorescence brightness can be improved by adding the pyrimidine compound containing the pyrimidine ring in the invention, especially the fluorescence brightness can be obviously improved by compounding with the triazine thiol compound, and the duration time of the fluorescence is improved, so that the phosphor pigment in the invention can generate enough brightness and the fluorescence with the duration time of more than 8 hours under the condition of irradiating sunlight or daylight lamps for at least one hour at the level of less than 1.0wt% and even as low as 0.5 wt%. In the present invention, the pyrimidine compound may be selected from pyrimidine, derivatives containing a pyrimidine ring, and the like. The triazine thiol compound can be selected from 1,3, 5-triazine-2, 4, 6-trithiol, 1,3, 5-triazine-2, 4, 6-trithiol triethanolamine or 6-dithiooctyl amino-1, 3, 5-triazine-2, 4-dithiol, the special six-membered heterocyclic structure containing 3 nitrogen atoms and the thiol structure of the triazine thiol compound can be used in combination with pyrimidine to remarkably enhance the fluorescence intensity and the persistence of the fluorescence intensity. In the present invention, the content of the phosphor pigment is preferably 0.5 to 3.0 wt%, more preferably 0.5 to 2.0 wt%, and for example, may be at a level of 0.5 to 1.0 wt%.

Example 1

The container in the fluorescent mosquito trapping and killing device with the mosquito trapping function is formed by compression molding the following fluorescent resin materials.

Mixing the above components uniformly, placing into a heated mold cavity, heating and curing at 120 deg.C under 0.5MPa for 20 min, cooling, and demolding.

Example 2

The container in the fluorescent mosquito trapping and killing device with the mosquito trapping function is formed by compression molding the following fluorescent resin materials.

Mixing the above components uniformly, placing into a heated mold cavity, heating and curing at 120 deg.C under 0.5MPa for 20 min, cooling, and demolding.

Example 3

Mixing the above components uniformly, placing into a heated mold cavity, heating and curing at 120 deg.C under 0.5MPa for 20 min, cooling, and demolding.

Example 4

The container in the fluorescent mosquito trapping and killing device with the mosquito trapping function is formed by compression molding the following fluorescent resin materials.

Mixing the above components uniformly, placing into a heated mold cavity, heating and curing at 120 deg.C under 0.5MPa for 20 min, cooling, and demolding.

Example 5

The container in the fluorescent mosquito trapping and killing device with the mosquito trapping function is formed by compression molding the following fluorescent resin materials.

Mixing the above components uniformly, placing into a heated mold cavity, heating and curing at 120 deg.C under 0.5MPa for 20 min, cooling, and demolding.

Comparative example 1

The container in the fluorescent mosquito trapping and killing device for trapping mosquitoes of the comparative example is formed by compression molding of the following fluorescent resin materials.

Mixing the above components uniformly, placing into a heated mold cavity, heating and curing at 120 deg.C under 0.5MPa for 20 min, cooling, and demolding.

Comparative example 2

The container of the fluorescent mosquito trapping and killing device with the mosquito trapping function is formed by compression molding of the following fluorescent resin materials.

Mixing the above components uniformly, placing into a heated mold cavity, heating and curing at 120 deg.C under 0.5MPa for 20 min, cooling, and demolding.

Comparative example 3

The container of the fluorescent mosquito trapping and killing device with the mosquito trapping function is formed by compression molding of the following fluorescent resin materials.

Mixing the above components uniformly, placing into a heated mold cavity, heating and curing at 120 deg.C under 0.5MPa for 20 min, cooling, and demolding.

Comparative example 4

Mixing the above components uniformly, placing into a heated mold cavity, heating and curing at 120 deg.C under 0.5MPa for 20 min, cooling, and demolding.

The containers obtained in examples and comparative examples were subjected to a fluorescence luminance test in accordance with JIS Z9107-1998, and the test results are shown in Table 1.

TABLE 1

The mosquito trapping and killing device with the mosquito trapping fluorescent light of the embodiment can generate continuous blue fluorescent light under the irradiation of sunlight or a fluorescent lamp, and compared with the comparative example, the emitted blue fluorescent light has long duration and high fluorescent brightness, so that mosquitoes in a room can be attracted into the device and killed.

It is obvious to those skilled in the art that the present invention is not limited to the above embodiments, and it is within the scope of the present invention to adopt various insubstantial modifications of the method concept and technical scheme of the present invention, or to directly apply the concept and technical scheme of the present invention to other occasions without modification.

Claims (6)

1. A fluorescent mosquito trapping and killing device with a mosquito trapping function comprises a container with an inner cavity, wherein an opening for allowing mosquitoes to enter is formed in the container; the method is characterized in that: the container is made of a fluorescent resin material composed of a transparent resin, a phosphor pigment, a triazine thiol compoundThe material, the pyrimidine compound and the silicon micropowder; the container is made of a fluorescent resin material through compression molding, wherein the fluorescent resin material comprises 0.5-5.0 wt% of phosphor pigment, 10.0-30.0 wt% of silica powder, 0.5-1.5 wt% of triazine thiol compound, 0.5-1.0 wt% of pyrimidine compound and 65.0-88.0 wt% of transparent resin; the phosphor pigment is selected from BaMg₂Al₁₆O₂₇:Eu，CaMgSi₂O₆Eu or CaAl₂O₄One of Eu; the container can generate continuous blue fluorescence under the irradiation of sunlight or a fluorescent lamp, and the inner wall of the container is coated or embedded with a lining material which can volatilize a substance containing pyrethroid; the lining material comprises 0.5-20.0 wt% of pyrethroid insecticide and 80.0-99.5 wt% of polyvinyl alcohol; the pyrethroid insecticide comprises a zeolite carrier and pyrethroid adsorbed in the zeolite carrier.

2. The fluorescent mosquito-trapping and-killing device with the function of attracting mosquitoes as claimed in claim 1, wherein: the thickness of the lining material is 100-2000 mu m, and the surface area is 5-1000cm²。

3. The fluorescent mosquito-trapping and-killing device with the function of attracting mosquitoes as claimed in claim 1, wherein: the container is in the shape of bowl, box, bottle, cylinder or cup.

4. The fluorescent mosquito-trapping and-killing device with the function of attracting mosquitoes as claimed in claim 1, wherein: the pyrethroid is permethrin, cyfluthrin, deltamethrin, cyfluthrin or fenvalerate.

5. The fluorescent mosquito-trapping and-killing device with the function of attracting mosquitoes as claimed in claim 1, wherein: the transparent resin is selected from methacrylic resin, acrylic resin, polycarbonate or epoxy resin.

6. The fluorescent mosquito-trapping and-killing device with the function of attracting mosquitoes as claimed in claim 1, wherein: the triazine thiol compound is at least one selected from 1,3, 5-triazine-2, 4, 6-trithiol, 1,3, 5-triazine-2, 4, 6-trithiol triethanolamine or 6-dithiooctyl amino-1, 3, 5-triazine-2, 4-dithiol.