CN111771841A - Method and device for catching mosquitoes - Google Patents

Abstract

The invention provides a method and a device for trapping mosquitoes, and belongs to the technical field of mosquito control. By arranging the mosquito net cloth outside the mosquito net, arranging the window screen in the window or coating adhesive substances on the window screen and the glass, the mosquitoes are trapped near the mosquito net or the window by utilizing the chance that the mosquitoes fly to people in the mosquito net at night or fly to the outside of the window after being brightly lighted, and the trapped mosquitoes can be conveniently and intensively killed by spraying a small amount of mosquito killing agent or using an electric mosquito swatter and other methods. The mosquito net, the screen window and the glass trap mosquitoes between two layers of mosquito net cloth, between two layers of window gauze, between the window gauze and the glass or are adhered on the screen window and the glass, so that the trapped mosquitoes can be conveniently and intensively eliminated by spraying a small amount of mosquito killing agent or using an electric mosquito swatter and other methods in the subsequent process.

Description

Method and device for catching mosquitoes

Technical Field

The invention relates to the technical field of mosquito control, in particular to a method and a device for capturing mosquitoes.

Background

Because mosquitoes have a large amount of bacteria and viruses, when the mosquitoes lie on the skin of a human body to suck blood, the bacteria and the viruses enter the human body to transmit diseases, such as malaria, dengue fever, yellow fever, Japanese encephalitis, filariasis and the like. Researchers have found that there are over 80 mosquito-transmitted diseases, and each year, thousands of people die of mosquito-transmitted diseases, with the most serious injuries being infants and pregnant women. The current common household mosquito injury prevention methods comprise screen window installation, mosquito supporting, mosquito coil dropping, mosquito killing agent spraying, electric mosquito swatter using and the like, and the used devices comprise screen windows, mosquito nets, electric mosquito swatters and the like. The screen window cannot prevent mosquitoes from entering a room by utilizing the opportunity that people open the door to enter and exit, mosquito coils are ignited for a long time, a large amount of mosquito killing agents are sprayed to the people, particularly infants and pregnant women, the mosquitoes which are touched can be killed by the electric mosquito swatter, the mosquitoes can be supported to be only blocked outside the mosquito net and cannot be killed, and the mosquitoes cannot be expelled out of the room, so that the method cannot avoid the damage of the mosquitoes to the people, particularly the infants and the pregnant women.

Disclosure of Invention

In order to make up the defects of the existing mosquito control method, the invention provides a method capable of capturing mosquitoes, which is convenient for intensively killing the captured mosquitoes by spraying a small amount of mosquito killing agent or using an electric mosquito swatter and other methods in the subsequent process.

The mosquitoes are characterized in that the mosquitoes fly to a human body at night, the mosquitoes in a room fly to a window in the morning and try to fly out of the room, and the mosquitoes outside the room try to fly into the room.

The invention provides a method for catching mosquitoes, before a person sleeps, single-layer mesh cloth is hung outside a standard mosquito net at a position more than 1 mm away from the standard mosquito net, transparent sticky substances are coated on window glass and a screen window, and single-layer mesh cloth is hung in a position in a room more than 1 mm away from the window glass and the screen window; when a person sleeps in the standard mosquito net, the mosquitoes outside the mosquito net firstly touch the hung single-layer eyelet fabric in the process of flying to the human body, fall onto the hung single-layer eyelet fabric, drill through meshes of the hung single-layer eyelet fabric after a period of time of effort, enter a gap between the hung single-layer eyelet fabric and the standard mosquito net, climb onto or fly onto the standard mosquito net, try to drill into the standard mosquito net through the effort, and cannot drill into the standard mosquito net; when a person wakes up, the mosquito killing agent spraying device which is placed on the bed in advance is taken up in the mosquito net, a small amount of mosquito killing agent is sprayed aiming at the mosquitoes between the standard mosquito net and the hung single-layer eyelet fabric, and the mosquitoes can not quickly escape through the hung single-layer eyelet fabric and are trapped in a narrow space and killed by the mosquito killing agent; after a person gets up, the person holds the mosquito killing agent spraying device and sprays a small amount of mosquito killing agent aiming at mosquitoes between the glass of the window, the screen window and the hung single-layer eyelet fabric, and the mosquitoes can not quickly pass through the hung single-layer eyelet fabric to escape and are trapped in a narrow space and killed by the mosquito killing agent; the single layer of the mesh cloth was taken away, and mosquitoes stuck to the glass and the screen window coated with the transparent adhesive were exterminated and removed.

The mesh density of the single-layer mesh fabric is less than 16 holes/5 cm in the vertical direction and less than 26 holes/5 cm in the transverse direction, and the transparent adhesive substance is glue capable of adhering mosquitoes.

The mesh density of the single-layer mesh fabric is less than 14 holes/5 cm and more than 6 holes/5 cm in the vertical direction, less than 24 holes/5 cm and more than 16 holes/5 cm in the transverse direction, and the transparent adhesive substance is fly glue or mosquito glue.

According to the method, the mesh density of the single-layer mesh fabric is less than 14 holes/5 cm and more than 8 holes/5 cm in the vertical direction, less than 24 holes/5 cm and more than 18 holes/5 cm in the transverse direction, and the transparent adhesive substance is a hot-melt adhesive sticker or a latex adhesive sticker.

The mesh density of the single-layer mesh fabric is less than 12 holes/5 cm and more than 8 holes/5 cm in the vertical direction, and less than 22 holes/5 cm and more than 18 holes/5 cm in the transverse direction, and the transparent adhesive is an acrylic adhesive, a rubber adhesive or a silicone adhesive.

The method of the invention, the mesh density of the single-layer mesh fabric is less than 14 holes/5 cm and more than 6 holes/5 cm in the vertical direction, less than 24 holes/5 cm and more than 16 holes/5 cm in the transverse direction, and the transparent viscous substance is rosin, tung oil and Arabic gum, wherein the ratio of the number of the transparent viscous substance to the number of the transparent viscous substance is 2: 1: 1, heating and mixing to obtain a mixture.

The method of the invention, the mesh density of the single layer mesh fabric is less than 14 holes/5 cm and more than 10 holes/5 cm in the vertical direction, less than 24 holes/5 cm and more than 20 holes/5 cm in the transverse direction, the transparent viscous substance is No. 40 lubricating oil, rosin is according to 4: 3, heating and mixing to obtain the mixture.

The mesh density of the single-layer mesh fabric is less than 14 holes/5 cm and more than 10 holes/5 cm in the vertical direction, less than 24 holes/5 cm and more than 18 holes/5 cm in the transverse direction, and the transparent viscous substance is rosin, castor oil and water, wherein the ratio of the number of holes to the number of holes is 4: 1: 20, heating the mixture in the ratio of 20.

The method of the invention, the mesh density of the single-layer mesh fabric is less than 10 holes/5 cm and more than 6 holes/5 cm in the vertical direction, less than 20 holes/5 cm and more than 16 holes/5 cm in the transverse direction, and the transparent viscous substance is rosin, pine tar oil and castor oil, wherein the ratio of the number of the holes in the single-layer mesh fabric to the number of the holes in the single-layer mesh fabric is 8: 5: 2, heating and mixing to obtain the mixture.

In order to make up the defects of the existing mosquito control device, the invention provides the mosquito net which can capture mosquitoes and is convenient for killing the trapped mosquitoes by spraying a small amount of mosquito killing agent or using an electric mosquito swatter and other methods in the subsequent process.

The mosquito net capable of catching mosquitoes comprises an inner layer net cloth and an outer layer net cloth, wherein meshes of the outer layer net cloth are larger than meshes of the inner layer net cloth, and mosquitoes can pass through the meshes of the outer layer net cloth but cannot pass through the meshes of the inner layer net cloth.

The mosquito net capable of catching mosquitoes, provided by the invention, has the advantage that the distance between the inner layer net and the outer layer net is more than 1 mm.

The mosquito net capable of trapping mosquitoes provided by the invention has the advantages that the distance between the inner layer net and the outer layer net is more than 2 mm and less than 400 mm.

According to the mosquito net capable of capturing mosquitoes, the mesh density on the inner layer of net cloth is more than or equal to 16 holes/5 cm in the vertical direction and more than or equal to 26 holes/5 cm in the transverse direction; the mesh density of the outer layer net cloth is less than 16 holes/5 cm in the vertical direction and less than 26 holes/5 cm in the transverse direction. The mesh density of the cloth is counted in the same manner as the mesh density counting method used in the industry standard FZ/T62014-2015.

The mosquito net capable of catching mosquitoes, provided by the invention, has the advantages that the mesh density on the inner layer of net cloth is more than or equal to 16 holes/5 cm and less than 30 holes/5 cm in the vertical direction, and more than or equal to 26 holes/5 cm and less than 50 holes/5 cm in the transverse direction; the mesh density on the outer layer net cloth is less than 16 holes/5 cm and more than 5 holes/5 cm in the vertical direction, and less than 26 holes/5 cm and more than 10 holes/5 cm in the transverse direction.

The mosquito net capable of catching mosquitoes provided by the invention has the advantages that the area of the outer layer net cloth forming the top surface and the side surface of the mosquito net is larger than that of the corresponding inner layer net cloth.

According to the mosquito net capable of capturing mosquitoes, after the outer layer of tent cloth is fixed, the inner layer of tent cloth is fixed through the connecting objects among the layers of tent cloth.

According to the mosquito net capable of capturing mosquitoes, after the inner layer of tent cloth is fixed, the outer layer of tent cloth is fixed through the connecting objects among the layers of tent cloth.

The mosquito net capable of catching mosquitoes, provided by the invention, has the advantages that the connecting objects among the net cloths are wires or thick ropes.

When a person sleeps in the mosquito net, mosquitoes outside the mosquito net firstly touch the outer layer net cloth of the mosquito net provided by the invention in the flying process to the human body, fall onto the outer layer net cloth, drill through meshes of the outer layer net cloth after a period of time of effort, enter a gap between the outer layer net cloth and the inner layer net cloth, then climb onto or fly onto the inner layer net cloth of the mosquito net, try to drill through meshes of the inner layer net cloth to drill into the mosquito net, but cannot drill into the mosquito net; when a person wakes up, the mosquito killing agent spraying device which is placed on the bed in advance is taken up in the mosquito net, a small amount of mosquito killing agent is sprayed to the mosquito which is positioned between the outer layer net cloth and the inner layer net cloth of the mosquito net, and the mosquito can only be trapped in a narrow space with higher concentration of the mosquito killing agent and is killed because the mosquito can not rapidly pass through the outer layer net cloth of the mosquito net to escape.

The mosquito net capable of catching mosquitoes comprises an inner layer net cloth, an outer layer net cloth and at least one middle layer net cloth positioned between the inner layer net cloth and the outer layer net cloth; the meshes of the middle layer tent are larger than those of the inner layer tent and smaller than those of the outer layer tent, and mosquitoes with small bodies can pass through the meshes of the outer layer tent and the middle layer tent but cannot pass through the meshes of the inner layer tent; the area of the middle layer tent cloth forming the top surface and the side surface of the mosquito net is smaller than that of the corresponding outer layer tent cloth and larger than that of the corresponding inner layer tent cloth; the inner layer tent cloth and the outer layer tent cloth fix the middle layer tent cloth through the connecting objects between the tent cloths.

After the middle layer tent is added, the tent with larger meshes can be used as the outer layer tent, so that mosquitoes can more easily enter a gap between the middle layer tent and the outer layer tent, and more mosquitoes can be conveniently caught.

In order to make up the defects of the existing mosquito control device, the invention provides the screen window capable of capturing the mosquitoes, which is convenient for intensively killing the captured mosquitoes by spraying a small amount of mosquito killing agent or using an electric mosquito swatter and other methods in the subsequent process.

The screen window for catching mosquitoes comprises an outer frame, an outer layer of window gauze and an inner layer of window gauze, wherein the mesh density of the outer layer of window gauze is that the radial mesh number is larger than or equal to 16 meshes/25.4 mm, the weft mesh number is larger than or equal to 16 meshes/25.4 mm, and the mesh density of the inner layer of window gauze is that the radial mesh number is smaller than 16 meshes/25.4 mm, and the weft mesh number is smaller than 16 meshes/25.4 mm; the distance between the outer layer window screening and the inner layer window screening is larger than 1 mm.

The invention provides a screen window for catching mosquitoes, which comprises an outer frame, an outer layer window screen and an inner layer window screen, wherein the mesh density of the outer layer window screen is that the radial mesh number is more than or equal to 16 meshes/25.4 mm and less than 25 meshes/25.4 mm, the latitudinal mesh number is more than or equal to 16 meshes/25.4 mm and less than 25 meshes/25.4 mm, the mesh density of the inner layer window screen is that the radial mesh number is less than 16 meshes/25.4 mm and more than 4 meshes/25.4 mm, and the latitudinal mesh number is less than 16 meshes/25.4 mm and more than 4 meshes/25.4 mm; the distance between the outer layer window screening and the inner layer window screening is greater than 2 millimeters and less than 200 millimeters.

The invention provides a screen window for catching mosquitoes, which comprises an outer frame, an outer layer window screen and an inner layer window screen, wherein the mesh density of the outer layer window screen is that the radial mesh number is more than or equal to 18 meshes/25.4 mm and less than 23 meshes/25.4 mm, the latitudinal mesh number is more than or equal to 18 meshes/25.4 mm and less than 23 meshes/25.4 mm, the mesh density of the inner layer window screen is that the radial mesh number is less than 14 meshes/25.4 mm and more than 6 meshes/25.4 mm, and the latitudinal mesh number is less than 14 meshes/25.4 mm and more than 6 meshes/25.4 mm; the distance between the outer layer window screening and the inner layer window screening is greater than 3 millimeters and less than 50 millimeters. Mosquitoes can not pass through the outer layer window screen.

The invention provides a screen window for catching mosquitoes, which comprises an outer frame, an outer layer window screen and an inner layer window screen, wherein the mesh density of the outer layer window screen is that the radial mesh number is more than or equal to 20 meshes/25.4 mm and less than 22 meshes/25.4 mm, the latitudinal mesh number is more than or equal to 20 meshes/25.4 mm and less than 22 meshes/25.4 mm, the mesh density of the inner layer window screen is that the radial mesh number is less than 12 meshes/25.4 mm and more than 8 meshes/25.4 mm, and the latitudinal mesh number is less than 12 meshes/25.4 mm and more than 8 meshes/25.4 mm; the distance between the outer layer window screening and the inner layer window screening is greater than 3 millimeters and less than 30 millimeters. Mosquitoes can pass through the inner layer window screening but cannot pass through the outer layer window screening.

The screen window for catching mosquitoes comprises an outer frame, an outer layer of window gauze and an inner layer of window gauze, wherein the mesh density of the outer layer of window gauze is 22 meshes/25.4 mm in the radial direction, the mesh density of the weft direction is 22 meshes/25.4 mm, the mesh density of the inner layer of window gauze is 12 meshes/25.4 mm in the radial direction, and the mesh density of the weft direction is 12 meshes/25.4 mm; the distance between the outer layer window screening and the inner layer window screening is greater than 3 millimeters and less than 10 millimeters. The mesh density of the window screen is counted in the same manner as the basic mesh count used in the industry standard QB/T4285-.

The invention provides a screen window for catching mosquitoes, which comprises an outer frame, an outer layer of window screening, an inner layer of window screening and at least one layer of middle layer of window screening, wherein the middle layer of window screening is positioned between the inner layer of window screening and the outer layer of window screening; the mesh density of the intermediate layer window screening is greater than that of the inner layer window screening and less than that of the outer layer window screening, and mosquitoes of smaller bodies can pass through the meshes of the inner layer window screening and the intermediate layer window screening but cannot pass through the meshes of the outer layer window screening.

The invention provides a screen window for catching mosquitoes, wherein at least one layer of screen window forming the screen window is coated with transparent adhesive substances, and the transparent adhesive substances can adhere the mosquitoes.

The window screen of the window screen is coated with transparent adhesive substance which is fly glue or mosquito glue.

The invention provides a screen window for catching mosquitoes, wherein transparent adhesive substances are coated on the screen window of the screen window, and the transparent adhesive substances are hot-melt adhesive stickers or emulsion adhesive stickers.

The invention provides a screen window for catching mosquitoes, which is characterized in that transparent adhesive substances are coated on the screen window of the screen window, and the transparent adhesive substances are acrylic adhesives, rubber adhesives or silicone adhesives.

The invention provides a screen window, wherein transparent viscous substances are coated on the screen window of the screen window, and the transparent viscous substances are rosin, tung oil and Arabic gum according to the weight ratio of 2: 1: 1, heating and mixing to obtain a mixture.

The invention provides a screen window for catching mosquitoes, wherein transparent viscous substances are coated on the screen window of the screen window, and the transparent viscous substances are No. 40 lubricating oil and rosin which are mixed according to the weight ratio of 4: 3, heating and mixing to obtain the mixture.

According to the screen window for catching mosquitoes, the screen window is coated with transparent viscous substances which are rosin, castor oil and water according to the weight ratio of 4: 1: 20, heating the mixture in the ratio of 20.

The invention provides a screen window, wherein transparent viscous substances are coated on the screen window of the screen window, and the transparent viscous substances are rosin, pine tar oil and castor oil, and are prepared from the following raw materials in percentage by weight: 5: 2, heating and mixing to obtain the mixture.

Before a person sleeps, the whole window is blocked by the screen window provided by the invention from a room, and when the screen window is placed, the outer layer of the screen window is tightly attached to the window as much as possible, and the inner layer of the screen window is close to the room. After morning, in the process that mosquitoes in a room fly to the outside of the room, the mosquitoes firstly touch the inner layer window screening of the screen window provided by the invention, fall onto the inner layer window screening, and after a period of time of effort, the mosquitoes drill through meshes of the inner layer window screening, enter a gap between the inner layer window screening and the outer layer window screening, and try to fly to the outside of the room through the outer layer window screening in an effort, but the mosquitoes do not drill. After a person gets up, the mosquito killing agent spraying device is held and a small amount of mosquito killing agent is sprayed aiming at mosquitoes between the inner layer window screening and the outer layer window screening of the screen window, and the mosquitoes can only be trapped in a narrow space with high concentration of the mosquito killing agent to be killed because the mosquitoes can not rapidly pass through the inner layer window screening of the screen window.

The window screen provided by the invention is used for blocking the whole window from a room before a person sleeps, and after the person flies to the outside of the room in the morning, mosquitoes in the room touch the window screen coated with the transparent adhesive substance on the window screen provided by the invention and are adhered to the window screen, and after the person gets up, the mosquitoes can be killed and cleaned.

In order to make up the defects of the existing mosquito control device, the invention provides the screen window device for capturing the mosquitoes, which is convenient for intensively killing the captured mosquitoes by methods of spraying a small amount of mosquito killing agent and the like in the follow-up process.

The invention provides a screen window device for catching mosquitoes, which comprises an outer frame, a layer of glass and at least one layer of window gauze, wherein the layer of window gauze farthest from the glass is an inner layer of window gauze, the mesh density of the inner layer of window gauze is that the radial mesh number is less than 16 meshes/25.4 mm, and the weft mesh number is less than 16 meshes/25.4 mm; the distance between the inner layer window screening and the glass is greater than 1 millimeter.

The invention provides a screen window device for catching mosquitoes, which comprises an outer frame, at least one layer of window screen and a layer of glass, wherein the layer of window screen farthest from the glass is an inner layer of window screen, the mesh density of the inner layer of window screen is that the radial mesh number is less than 16 meshes/25.4 mm and is more than 4 meshes/25.4 mm, and the weft mesh number is less than 16 meshes/25.4 mm and is more than 4 meshes/25.4 mm; the distance between the inner layer window screening and the glass is greater than 2 mm and less than 200 mm.

The invention provides a screen window device for catching mosquitoes, which comprises an outer frame, at least one layer of window screen and a layer of glass, wherein the layer of window screen farthest from the glass is an inner layer of window screen, the mesh density of the inner layer of window screen is that the radial mesh number is less than 14 meshes/25.4 mm and is more than 6 meshes/25.4 mm, and the weft mesh number is less than 14 meshes/25.4 mm and is more than 6 meshes/25.4 mm; the distance between the inner layer window screening and the glass is greater than 3 mm and less than 50 mm.

The invention provides a screen window device for catching mosquitoes, which comprises an outer frame, at least one layer of window screen and a layer of glass, wherein the layer of window screen farthest from the glass is an inner layer of window screen, the mesh density of the inner layer of window screen is that the radial mesh number is less than 12 meshes/25.4 mm and is more than 8 meshes/25.4 mm, and the weft mesh number is less than 12 meshes/25.4 mm and is more than 8 meshes/25.4 mm; the distance between the inner layer window screening and the glass is greater than 3 mm and less than 30 mm.

The invention provides a screen window device for catching mosquitoes, which comprises an outer frame, at least one layer of window screen and a layer of glass, wherein the layer of window screen farthest from the glass is an inner layer of window screen, the mesh density of the inner layer of window screen is that the radial mesh number is 12 meshes/25.4 mm, and the latitudinal mesh number is 12 meshes/25.4 mm; the distance between the inner layer window screening and the glass is greater than 3 mm and less than 10 mm. Mosquitoes can pass through the inner layer window screen.

The invention provides a screen window device for catching mosquitoes, which comprises an outer frame, a layer of glass, an inner layer of window screening and at least one layer of middle layer of window screening positioned between the inner layer of window screening and the glass, wherein the mesh density of the middle layer of window screening is greater than that of the inner layer of window screening; the distance between the middle layer window screening and the inner layer window screening is more than 1 mm; the distance between the interlayer window screen and the glass is greater than 1 mm.

The invention provides a screen window device for catching mosquitoes, which comprises an outer frame, at least one layer of window screen and one layer of glass, wherein transparent adhesive substances are coated on the inner layer of window screen or the middle layer of window screen, and the transparent adhesive substances can stick the mosquitoes.

The invention provides a screen window device for catching mosquitoes, which comprises an outer frame, at least one layer of window screen and one layer of glass, wherein transparent adhesive substances are coated on the glass, and the transparent adhesive substances can adhere mosquitoes.

The invention provides a screen window device for catching mosquitoes, which comprises an outer frame, glass, an inner layer window screening and an intermediate layer window screening positioned between the inner layer window screening and the glass, wherein the mesh density of the inner layer window screening is that the radial mesh number is less than 4 meshes/25.4 mm, the weft mesh number is less than 4 meshes/25.4 mm, and the mesh density of the intermediate layer window screening is greater than that of the inner layer window screening; the distance between the middle layer window screening and the inner layer window screening is more than 1 mm; the distance between the interlayer window screen and the glass is greater than 1 mm.

The invention provides a screen window device for catching mosquitoes, which comprises an outer frame, glass, an inner layer window screening and an intermediate layer window screening positioned between the inner layer window screening and the glass, wherein the mesh density of the inner layer window screening is that the radial mesh number is less than 8 meshes/25.4 mm, the weft mesh number is less than 8 meshes/25.4 mm, the mesh density of the intermediate layer window screening is that the radial mesh number is less than 12 meshes/25.4 mm and is more than 8 meshes/25.4 mm, and the weft mesh number is less than 12 meshes/25.4 mm and is more than 8 meshes/25.4 mm; the distance between the middle layer window screening and the inner layer window screening is more than 2 mm and less than 200 mm; the distance between the interlayer window screen and the glass is greater than 2 mm and less than 200 mm.

The invention provides a screen window device for catching mosquitoes, which comprises an outer frame, glass, an inner layer window screening and an intermediate layer window screening positioned between the inner layer window screening and the glass, wherein the mesh density of the inner layer window screening is that the radial mesh number is less than 10 meshes/25.4 mm, the weft mesh number is less than 10 meshes/25.4 mm, the mesh density of the intermediate layer window screening is that the radial mesh number is less than 14 meshes/25.4 mm and is more than 10 meshes/25.4 mm, and the weft mesh number is less than 14 meshes/25.4 mm and is more than 10 meshes/25.4 mm; the distance between the middle layer window screening and the inner layer window screening is more than 2 mm and less than 200 mm; the distance between the interlayer window screen and the glass is greater than 2 mm and less than 80 mm.

The invention provides a screen window device for catching mosquitoes, which comprises an outer frame, glass, an inner layer window screening and an intermediate layer window screening positioned between the inner layer window screening and the glass, wherein the mesh density of the inner layer window screening is that the radial mesh number is less than 12 meshes/25.4 mm, the weft mesh number is less than 12 meshes/25.4 mm, the mesh density of the intermediate layer window screening is that the radial mesh number is less than 16 meshes/25.4 mm and is more than 12 meshes/25.4 mm, and the weft mesh number is less than 16 meshes/25.4 mm and is more than 12 meshes/25.4 mm; the distance between the middle layer window screening and the inner layer window screening is more than 2 mm and less than 200 mm; the distance between the interlayer window screen and the glass is greater than 2 mm and less than 20 mm.

The screen window device for catching mosquitoes has the area not smaller than that of the whole window.

The screen window device provided by the invention has the advantages that the transparent viscous substance is fly glue or mosquito glue.

The transparent adhesive substance of the screen window device is a hot melt adhesive sticker or a latex adhesive sticker.

The invention provides a screen window device for catching mosquitoes, wherein the transparent adhesive substance is acrylic adhesive, rubber adhesive or silicone adhesive.

The invention provides a screen window device for catching mosquitoes, wherein the transparent viscous substances are rosin, tung oil and Arabic gum according to the weight ratio of 2: 1: 1, heating and mixing to obtain a mixture.

The invention provides a screen window device for catching mosquitoes, wherein the transparent viscous substance is No. 40 lubricating oil and rosin, and the weight ratio of the transparent viscous substance to the rosin is as follows: 3, heating and mixing to obtain the mixture.

The invention provides a screen window device for catching mosquitoes, wherein the transparent viscous substances are rosin, castor oil and water, and the weight ratio of the rosin to the castor oil to the water is 4: 1: 20, heating the mixture in the ratio of 20.

The invention provides a screen window device for catching mosquitoes, wherein the transparent viscous substances are rosin, pine tar and castor oil, and the weight ratio of the rosin to the pine tar to the castor oil is as follows: 5: 2, heating and mixing to obtain the mixture.

Before a person sleeps, the screen window device provided by the invention is used for blocking the whole window from a room, and when the screen window device is placed, the glass is tightly attached to the window as much as possible, and the inner layer of the screen window is close to the inside of the room. After morning, in the process that mosquitoes in a room fly to the outside of the room, the mosquitoes firstly touch the inner layer window screen of the screen window device provided by the invention, fall onto the inner layer window screen, and after a period of time of effort, the mosquitoes drill through meshes of the inner layer window screen, enter gaps between the inner layer window screen and glass, try to fly to the outside of the room through the effort, but cannot fly out because the glass blocks the mosquitoes. After a person gets up, the mosquito killing agent spraying device is held and a small amount of mosquito killing agent is sprayed to mosquitoes between the inner layer window screening and the glass of the screen window device, and the mosquitoes can only be trapped in a narrow space with high concentration of the mosquito killing agent and killed because the mosquitoes can not rapidly pass through the inner layer window screening of the screen window device to escape.

The window screen device provided by the invention is used for blocking the whole window from a room before a person sleeps, and after the person is bright in the morning, mosquitoes in the room are stuck on the window screen or the glass coated with the transparent adhesive substance in the process of flying outside the room, and the mosquitoes can be killed and cleaned after the person gets up.

In order to overcome the defects of the existing mosquito control method and device, the invention provides a device for capturing mosquitoes, which is convenient for subsequently killing and cleaning trapped mosquitoes.

The device for catching mosquitoes comprises a plane object with the thickness less than 9 cm, sunlight can penetrate through the plane object, and the plane object is coated with a transparent adhesive substance which can stick mosquitoes.

The device for catching mosquitoes comprises a plane object with the thickness of less than 9 centimeters, wherein the plane object is a window screen.

The device for catching mosquitoes comprises a plane object with the thickness less than 9 cm, wherein the plane object is a mosquito net cloth.

The device for catching mosquitoes comprises a plane object with the thickness of less than 9 centimeters, wherein the plane object is glass.

The device for catching mosquitoes comprises a plane object with the thickness less than 9 cm, wherein the plane object is glass, and transparent adhesive substances are only coated on one surface, close to the inside of a room, of the glass.

The device for catching mosquitoes comprises a plane object with the thickness of less than 9 centimeters, wherein the plane object is a window screen, and the window screen is fixed by an outer frame.

The device for catching mosquitoes comprises a plane object with the thickness less than 9 cm, wherein the plane object is a mosquito net and a mosquito net is fixed by an outer frame.

The device for catching mosquitoes comprises a plane object with the thickness smaller than 9 cm, wherein the plane object is a window screen, the window screen is fixed by an outer frame, and a sucker is arranged on the outer frame and can suck the wall around a window.

The device for catching mosquitoes comprises a plane object with the thickness smaller than 9 cm, wherein the plane object is mosquito net cloth which is fixed by an outer frame, and the outer frame is provided with a sucker which can suck walls around a window.

The invention provides a device for catching mosquitoes, which comprises a plane object with the thickness of less than 9 cm and a bracket, wherein the bracket fixes the plane object in a room close to a window.

The device for catching mosquitoes comprises a plane object with the thickness of less than 9 cm and a support, wherein the support fixes the plane object in a room close to a window, and a sucker is arranged on the support and can suck the wall around the window.

The device for catching mosquitoes comprises a plane object with the thickness of less than 9 cm, wherein a sucker is arranged on the plane object and can suck the wall around a window.

The invention provides a device for catching mosquitoes, which comprises a plane object with the thickness of less than 9 centimeters, wherein the area of the plane object is not less than that of the whole window. Before a person sleeps, the whole window is blocked by the plane object provided by the invention, and the side of the plane object coated with the transparent sticky substance is close to the inside of a room when the window is placed. After morning brightness, in the process that mosquitoes in a room fly out of the room, the mosquitoes firstly touch the plane object coated with the transparent sticky substance of the device for catching the mosquito net provided by the invention, and the mosquitoes are stuck by the transparent sticky substance on the plane object. After the person gets up, the mosquito is killed and cleaned. People can directly kill and clean the adhered mosquitoes, thereby avoiding the damage to people caused by killing the mosquitoes by using the mosquito killing agent.

The transparent adhesive substance of the device for catching mosquitoes provided by the invention is the glue for sticking flies or the glue for sticking mosquitoes.

The invention provides a device for catching mosquitoes, wherein the transparent adhesive substance is a hot-melt adhesive sticker or an emulsion adhesive sticker.

The transparent adhesive substance used by the device for catching mosquitoes is acrylic adhesive, rubber adhesive or silicone adhesive.

The invention provides a device for catching mosquitoes, wherein transparent viscous substances are rosin, tung oil and Arabic gum, and the weight ratio of the transparent viscous substances to the rosin, the tung oil and the Arabic gum is 2: 1: 1, heating and mixing to obtain a mixture.

The invention provides a device for catching mosquitoes, which uses transparent viscous substances of No. 40 lubricating oil and rosin in a proportion of 4: 3, heating and mixing to obtain the mixture.

The invention provides a device for catching mosquitoes, wherein the transparent viscous substances are rosin, castor oil and water, and the weight ratio of the transparent viscous substances to the rosin to the castor oil to the water is 4: 1: 20, heating the mixture in the ratio of 20.

The invention provides a device for catching mosquitoes, wherein the transparent viscous substances are rosin, pine tar oil and castor oil, and the weight ratio of the transparent viscous substances to the rosin to the pine tar oil is as follows: 5: 2, heating and mixing to obtain the mixture.

The single-layer screen window for capturing mosquitoes comprises an outer frame and a single-layer screen window, wherein the mesh density of the single-layer screen window is that the radial mesh number is smaller than 16 meshes/25.4 mm, and the latitudinal mesh number is smaller than 16 meshes/25.4 mm, and the outer frame is tightly attached to the wall around the window through a sucking disc, so that the single-layer screen window, the glass of the window and the original standard screen window form a space together. Before a person sleeps, the single-layer screen window provided by the invention is used for blocking the whole window. After the mosquito flies to the outside of the room in the morning, the mosquito in the room firstly touches the single-layer window screen of the single-layer window screen provided by the invention, falls on the single-layer window screen, and after a period of time of effort, the mosquito drills through the meshes of the single-layer window screen, enters a space surrounded by the glass of the single-layer window screen and the window and the original standard window screen, and tries to fly to the outside of the room through the effort, but the window glass and the original standard window screen cannot fly out because the window glass and the original standard window screen are blocked. After a person gets up, the person holds the mosquito killing agent spraying device and sprays a small amount of mosquito killing agent aiming at the mosquitoes in the space surrounded by the single-layer window screen, the window glass and the original standard window screen, and the mosquitoes can only be trapped in a narrow space with higher concentration of the mosquito killing agent to be killed because the mosquitoes can not rapidly pass through the single-layer window screen.

The invention provides a single-layer screen window for catching mosquitoes, which comprises an outer frame and a single-layer screen window, wherein the mesh density of the single-layer screen window is that the radial mesh number is less than 12 meshes/25.4 mm and is more than 8 meshes/25.4 mm, and the latitudinal mesh number is less than 12 meshes/25.4 mm and is more than 8 meshes/25.4 mm.

The invention has the beneficial effects that:

1. the common screen window cannot prevent mosquitoes from entering a room by utilizing the opportunity of opening a door to enter and exit, the common mosquito net can only prevent the mosquitoes from entering the mosquito net to hurt people, but the mosquitoes still can be hurt by the mosquitoes when people get up and move in the room, particularly for infants, pregnant women and other people who live at home for a long time; the method provided by the invention can capture mosquitoes by utilizing the characteristics of the mosquitoes, and is convenient for killing the mosquitoes in a room by a method with minimum harm to people in the subsequent process.

2. According to the mosquito net provided by the invention, mosquitoes are trapped between the two layers of net cloth of the mosquito net, between the inner layer window screen and other window screens of the window screen, and between the inner layer window screen and the middle layer window screen or glass of the window screen device, so that the mosquitoes in a room can be killed conveniently and subsequently by a method with minimum harm to people. If the mosquito killer is used for killing trapped mosquitoes, the mosquitoes can be killed in the narrow space only by a small amount of the mosquito killer, the amount of the mosquito killer required for killing the mosquitoes in a room is greatly reduced, and the harm of the mosquito killer to people is greatly reduced; if the trapped mosquitoes are killed by hands or other objects, the harm to people caused by a small amount of the mosquito killing agent can be avoided.

3. The window screening, the mosquito net cloth or the glass coated with the transparent adhesive substance, provided by the invention, utilizes the opportunity that mosquitoes fly out of a room after being brightened in the morning to stick the mosquitoes on the window screening, the mosquito net cloth or the glass, so that people can directly kill and clean the mosquitoes, thereby avoiding the damage to people when the mosquitoes are killed by using a mosquito killing agent.

4. The mosquito net, the screen window device and other devices for catching mosquitoes provided by the invention have low manufacturing cost.

Drawings

Fig. 1 is a schematic view of a single layer of mesh fabric hanging outside a mosquito net;

FIG. 2 is a schematic view of a single layer of mesh fabric;

FIG. 3 is a schematic view of a single layer of mesh cloth hanging in a room near a window;

figure 4 is a partial schematic view of a double layered mosquito net;

figure 5 is a partial schematic view of a double layered mosquito net;

FIG. 6 is a partial schematic view of the inner sheet;

FIG. 7 is a partial schematic view of an outer sheet;

figure 8 is a schematic view of a double layer mosquito net;

figure 9 is a schematic view of a double layer mosquito net;

figure 10 is a schematic view of a double layer mosquito net;

figure 11 is a partial schematic view of a three-layered mosquito net.

FIG. 12 is a partial view of a screen of a double layer window screen;

FIG. 13 is a partial view of a screen of a double layer window screen;

FIG. 14 is a schematic view of an outer layer window screen;

FIG. 15 is a schematic view of an inner layer window screen;

FIG. 16 is a partial screen view of a three-layer window screen;

FIG. 17 is a partial schematic view of a screen assembly including glass and a window screen;

FIG. 18 is a partial schematic view of a screen assembly including glass and a window screen;

FIG. 19 is a schematic view of glass;

FIG. 20 is a partial schematic view of a screen assembly including glass and a window screen;

FIG. 21 is a schematic view of an apparatus for catching mosquitoes;

FIG. 22 is a schematic view of an apparatus for capturing mosquitoes;

FIG. 23 is a schematic view of an apparatus for capturing mosquitoes;

FIG. 24 is a schematic view of an apparatus for catching mosquitoes;

FIG. 25 is a schematic view of an apparatus for catching mosquitoes;

FIG. 26 is a schematic view of an apparatus for capturing mosquitoes;

FIG. 27 is a schematic view of an apparatus for catching mosquitoes;

FIG. 28 is a schematic view of a single-layered screen for capturing mosquitoes;

fig. 29 is a schematic view of a single-layer screen window for capturing mosquitoes.

In the figure, 1, a single layer of mesh cloth; 2. a standard mosquito net; 3. meshes on the single-layer mesh cloth; 4. a window; 5, inner layer tent cloth; 6. an outer layer of tent cloth; 7. a mosquito net top surface; 8. mosquito net side; 9. a thread connecting the outer layer of drapery and the inner layer of drapery; 10. the thick rope is used for connecting the outer layer tent cloth and the inner layer tent cloth; 11. a middle layer tent; 12. inner layer window screening; 13, outer layer window screening; 14. an outer frame; 15. an intermediate layer window screening; 16. glass; 17. window screening; 18. mosquito net cloth; 19. a suction cup; 20. and (4) a bracket.

Detailed Description

In the description of the specific embodiments, numerous specific details are set forth, it being understood that embodiments of the invention may be practiced without these specific details. In the description of the present invention, if it is considered that a detailed explanation of related known functions or configurations unnecessarily shifts the gist of the present invention, such explanation will be omitted but will be understood by those skilled in the art. Well-known structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

Example 1: according to the method provided by the invention, before a person sleeps, a single-layer mesh cloth 1 is hung outside a standard mosquito net 2 at a distance exceeding 1 mm from the standard mosquito net 2, as shown in figure 1, and the shape of the single-layer mesh cloth is as shown in figure 2; coating transparent adhesive substance on the glass or screen window of the window 4; a single layer of scrim 1 is hung in the room more than 1 mm from the glass of the window 4 and the window's original standard screen, as shown in figure 3. When a person sleeps in the standard mosquito net, in the process that mosquitoes outside the mosquito net fly to a human body, the mosquitoes firstly touch the single-layer eyelet fabric 1 and fall onto the single-layer eyelet fabric 1, and after a period of time of effort, the mosquitoes drill through meshes 3 of the single-layer eyelet fabric 1 and enter a gap between the hung single-layer eyelet fabric 1 and the standard mosquito net, and then climb or fly onto the standard mosquito net 2 and try to drill into the standard mosquito net through the effort, but cannot drill into the standard mosquito net; when a person wakes up, the mosquito killing agent spraying device which is placed on the bed in advance is taken up in the mosquito net, a small amount of mosquito killing agent is sprayed aiming at the mosquito between the standard mosquito net 2 and the hung single-layer eyelet fabric 1, and the mosquito is trapped in a narrow space and killed by the mosquito killing agent because the mosquito cannot rapidly escape through the hung single-layer eyelet fabric 1; after a person gets up, the person holds the mosquito killing agent spraying device, and sprays a small amount of mosquito killing agent aiming at the glass of the window 4 and the mosquitoes between the original standard screen window of the window and the hung single-layer eyelet fabric 1, and the mosquitoes can not quickly pass through the hung single-layer eyelet fabric 1 to escape and are trapped in a narrow space and killed by the mosquito killing agent; the single layer of the eyelet fabric 1 is taken away, and mosquitoes stuck to the glass and the screen window coated with the adhesive are exterminated and removed.

Example 2: according to the method provided by the invention, before a person sleeps, a single-layer mesh cloth 1 is hung at any position between 2 mm and 400 mm away from a standard mosquito net 2 outside the mosquito net, as shown in figure 1; the shape of the single-layer eyelet fabric 1 is shown in figure 2, the mesh density of the single-layer eyelet fabric 1 is less than 16 holes/5 cm in the vertical direction and less than 26 holes/5 cm in the transverse direction; in the sleeping process of a person, when flying to a human body, mosquitoes outside the mosquito net firstly touch the single-layer eyelet fabric 1, fall onto the single-layer eyelet fabric 1, drill through meshes 3 of the single-layer eyelet fabric 1 after a period of time of effort, enter a gap between the hung single-layer eyelet fabric 1 and the mosquito net, then climb onto or fly onto a standard mosquito net 2, try to drill into the mosquito net through the effort, but do not drill into the mosquito net; when a person wakes up, the mosquito killing agent spraying device which is placed on the bed in advance is taken up in the mosquito net, a small amount of mosquito killing agent is sprayed aiming at the mosquito between the standard mosquito net 2 and the hung single-layer eyelet fabric 1, and the mosquito can only be trapped in a narrow space with higher concentration of the mosquito killing agent and killed because the mosquito can not rapidly pass through the hung single-layer eyelet fabric 1 to escape.

Example 3: according to the method provided by the invention, before a person sleeps, a single-layer mesh cloth 1 is hung outside a standard mosquito net 2 at a distance of 10 mm from the mosquito net, as shown in figure 1; in the sleeping process of a person, when flying to a human body, mosquitoes outside the mosquito net firstly touch the single-layer eyelet fabric 1, fall onto the single-layer eyelet fabric 1, drill through meshes 3 of the single-layer eyelet fabric 1 after a period of time of effort, enter a gap between the hung single-layer eyelet fabric 1 and the mosquito net, then climb onto or fly onto a standard mosquito net 2, try to drill into the mosquito net through the effort, but do not drill into the mosquito net; when a person wakes up, the mosquito killing agent spraying device which is placed on the bed in advance is taken up in the mosquito net, a small amount of mosquito killing agent is sprayed aiming at the mosquito between the standard mosquito net 2 and the hung single-layer eyelet fabric 1, and the mosquito can only be trapped in a narrow space with higher concentration of the mosquito killing agent and killed because the mosquito can not rapidly pass through the hung single-layer eyelet fabric 1 to escape.

Example 4: according to the method provided by the invention, a single-layer mesh cloth 1 is hung at any position in a room, which is 2 mm to 400 mm away from glass of a window 4 and an original standard screen window of the window, before a person sleeps, as shown in figure 3; after the room is bright, in the process that mosquitoes in the room fly out of the room, the mosquitoes firstly touch the single-layer mesh cloth 1, fall onto the single-layer mesh cloth 1, and after a period of time of effort, the mosquitoes drill through the meshes of the single-layer mesh cloth 1, enter a gap between the hung single-layer mesh cloth 1 and glass of the window 4 and an original standard screen window of the window, then climb onto or fly onto the original standard screen window of the window, and try to drill through the meshes of the original standard screen window of the window through the effort, but do not drill; after getting up, a person holds the mosquito killing agent spraying device, and sprays a small amount of mosquito killing agent aiming at the glass of the window 4, the original standard screen window of the window and the mosquitoes between the hung single-layer eyelet fabric 1, and because the mosquitoes can not rapidly pass through the hung single-layer eyelet fabric 1 to escape, the mosquitoes can only be trapped in a narrow space with higher concentration of the mosquito killing agent to be killed.

Example 5: according to the method provided by the invention, a single-layer mesh cloth 1 is hung at any position in a room, which is 2 mm to 200 mm away from glass of a window 4 and an original standard screen window of the window, before a person sleeps, as shown in figure 3; after the room is bright, in the process that mosquitoes in the room fly out of the room, the mosquitoes firstly touch the single-layer mesh cloth 1, fall onto the single-layer mesh cloth 1, and after a period of time of effort, the mosquitoes drill through the meshes of the single-layer mesh cloth 1, enter a gap between the hung single-layer mesh cloth 1 and glass of the window 4 and an original standard screen window of the window, then climb onto or fly onto the original standard screen window of the window, and try to drill through the meshes of the original standard screen window of the window through the effort, but do not drill; after getting up, a person holds the mosquito killing agent spraying device, and sprays a small amount of mosquito killing agent aiming at the glass of the window 4, the original standard screen window of the window and the mosquitoes between the hung single-layer eyelet fabric 1, and because the mosquitoes can not rapidly pass through the hung single-layer eyelet fabric 1 to escape, the mosquitoes can only be trapped in a narrow space with higher concentration of the mosquito killing agent to be killed.

Example 6: according to the method provided by the invention, a single-layer mesh cloth 1 is hung in a place 10 mm away from glass of a window 4 and an original standard screen window of the window in a room before a person sleeps, as shown in figure 3; after the room is bright, in the process that mosquitoes in the room fly out of the room, the mosquitoes firstly touch the single-layer mesh cloth 1, fall onto the single-layer mesh cloth 1, and after a period of time of effort, the mosquitoes drill through the meshes of the single-layer mesh cloth 1, enter a gap between the hung single-layer mesh cloth 1 and glass of the window 4 and an original standard screen window of the window, then climb onto or fly onto the original standard screen window of the window, and try to drill through the meshes of the original standard screen window of the window through the effort, but do not drill; after getting up, a person holds the mosquito killing agent spraying device, and sprays a small amount of mosquito killing agent aiming at the glass of the window 4, the original standard screen window of the window and the mosquitoes between the hung single-layer eyelet fabric 1, and because the mosquitoes can not rapidly pass through the hung single-layer eyelet fabric 1 to escape, the mosquitoes can only be trapped in a narrow space with higher concentration of the mosquito killing agent to be killed.

Example 7: according to the method provided by the invention, before a person sleeps, sticky substances are coated on glass of a window and a screen window in a room, and the sticky substances are hot-melt adhesive stickers; after the mosquito flies to the outside of the room, the mosquitoes in the room touch the glass and the screen window of the window and are stuck by the adhesive substance and cannot fly away; after the person gets up, the adhered mosquitoes are killed and cleaned.

Example 8: according to the method provided by the invention, before a person sleeps, sticky substances are coated on glass of a window and a screen window in a room, and the sticky substances are emulsion type adhesive stickers; after the mosquito flies to the outside of the room, the mosquitoes in the room touch the glass and the screen window of the window and are stuck by the adhesive substance and cannot fly away; after the person gets up, the adhered mosquitoes are killed and cleaned.

Example 9: according to the method provided by the invention, before a person sleeps, sticky substances are coated on glass of a window and a screen window in a room, and the sticky substances are propylene adhesives; after the mosquito flies to the outside of the room, the mosquitoes in the room touch the glass and the screen window of the window and are stuck by the adhesive substance and cannot fly away; after the person gets up, the adhered mosquitoes are killed and cleaned.

Example 10: according to the method provided by the invention, before a person sleeps, sticky substances are coated on glass of a window and a screen window in a room, and the sticky substances are rubber adhesives; after the mosquito flies to the outside of the room, the mosquitoes in the room touch the glass and the screen window of the window and are stuck by the adhesive substance and cannot fly away; after the person gets up, the adhered mosquitoes are killed and cleaned.

Example 11: according to the method provided by the invention, before a person sleeps, sticky substances are coated on glass of a window and a screen window in a room, and the sticky substances are silicone adhesives; after the mosquito flies to the outside of the room, the mosquitoes in the room touch the glass and the screen window of the window and are stuck by the adhesive substance and cannot fly away; after the person gets up, the adhered mosquitoes are killed and cleaned.

Example 12: according to the method provided by the invention, before a person sleeps, sticky substances are coated on glass of a window and a screen window in a room, wherein the sticky substances are rosin, tung oil and Arabic gum according to the ratio of 2: 1: 1, heating and mixing to obtain a mixture; after the mosquito flies to the outside of the room, the mosquitoes in the room touch the glass and the screen window of the window and are stuck by the adhesive substance and cannot fly away; after the person gets up, the adhered mosquitoes are killed and cleaned.

Example 13: according to the method provided by the invention, before a person sleeps, sticky substances are coated on glass of a window and a screen window in a room, wherein the sticky substances are No. 40 lubricating oil and rosin, and the weight ratio of the sticky substances to the rosin is 4: 3, heating and mixing the mixture according to the proportion of 3; after the mosquito flies to the outside of the room, the mosquitoes in the room touch the glass and the screen window of the window and are stuck by the adhesive substance and cannot fly away; after the person gets up, the adhered mosquitoes are killed and cleaned.

Example 14: according to the method provided by the invention, before a person sleeps, sticky substances are coated on glass of a window and a screen window in a room, wherein the sticky substances are rosin, castor oil and water according to a ratio of 4: 1: 20, heating and mixing to obtain a mixture; after the mosquito flies to the outside of the room, the mosquitoes in the room touch the glass and the screen window of the window and are stuck by the adhesive substance and cannot fly away; after the person gets up, the adhered mosquitoes are killed and cleaned.

Example 15: according to the method provided by the invention, before a person sleeps, sticky substances are coated on glass of a window and a screen window in a room, wherein the sticky substances are rosin, pine tar oil and castor oil, and the weight ratio of the rosin to the pine tar oil to the castor oil is 8: 5: 2, heating and mixing to obtain a mixture; after the mosquito flies to the outside of the room, the mosquitoes in the room touch the glass and the screen window of the window and are stuck by the adhesive substance and cannot fly away; after the person gets up, the adhered mosquitoes are killed and cleaned.

Example 16: the mosquito net provided by the invention comprises two layers of net cloth with meshes, as shown in figure 4; the two-layer tent is seen from the front side as shown in figure 5; the mesh on the inner layer tent 5 is shown in fig. 6; the mesh on the outer sheet 6 is shown in figure 7.

Example 17: the mosquito net provided by the invention comprises two layers of net cloth with meshes, as shown in figure 4, the distance between the two layers of net cloth is more than 1 mm and less than 400 mm; the two-layer tent is seen from the front side as shown in figure 5; the meshes on the inner layer tent cloth 5 are shown in figure 6, the mesh density is more than or equal to 16 holes/5 cm in the vertical direction and more than or equal to 26 holes/5 cm in the transverse direction; the mesh density of the outer layer of cloth 6 is less than 16 holes/5 cm in the vertical direction and less than 26 holes/5 cm in the transverse direction, as shown in fig. 7.

Example 18: the mosquito net provided by the invention comprises two layers of net cloth with meshes, as shown in figure 4, the distance between the two layers of net cloth is more than 2 mm and less than 200 mm; the two-layer tent is seen from the front side as shown in figure 5; the meshes on the inner layer tent cloth 5 are shown in figure 6, and the mesh density is 20 holes/5 cm in the vertical direction and 30 holes/5 cm in the transverse direction; the mesh density of the outer layer net 6 is 12 holes/5 cm in the vertical direction and 22 holes/5 cm in the transverse direction, as shown in fig. 7.

Example 19: the mosquito net provided by the invention comprises two layers of net cloth with meshes, as shown in figure 4, the distance between the two layers of net cloth is 5 mm; the two-layer tent is seen from the front side as shown in figure 5; the meshes on the inner layer tent cloth 5 are shown in figure 6, and the mesh density is 18 holes/5 cm in the vertical direction and 28 holes/5 cm in the transverse direction; the mesh density of the outer layer of the net 6 is 14 holes/5 cm in the vertical direction and 24 holes/5 cm in the transverse direction, as shown in fig. 7.

Example 20: the mosquito net provided by the invention is formed by enclosing a top surface 7 and four side surfaces 8, wherein the top surface and the side surfaces comprise two layers of net cloth, and the area of an outer layer net cloth 6 forming the top surface and the side surfaces of the mosquito net is larger than that of a corresponding inner layer net cloth 5, as shown in figure 8.

Example 21: the mosquito net provided by the invention is enclosed by a top surface and four side surfaces, wherein the top surface and the side surfaces comprise two layers of net cloths, the area of an outer layer net cloth 6 forming the top surface and the side surfaces of the mosquito net is larger than that of a corresponding inner layer net cloth 5, and the two layers of net cloths are connected through a line 9, as shown in figure 9; after the outer layer tent is fixed, the inner layer tent is tensioned by a thread 9.

Example 22: the mosquito net provided by the invention is enclosed by a top surface and four side surfaces, wherein the top surface and the side surfaces comprise two layers of net cloths, the area of an outer layer net cloth 6 forming the top surface and the side surfaces of the mosquito net is larger than that of a corresponding inner layer net cloth 5, and the two layers of net cloths are connected through a thick rope 10 as shown in figure 10; after the inner layer tent is fixed, the outer layer tent is spread by the thick rope 10.

Example 23: the mosquito net provided by the invention comprises three layers of net cloth with meshes, as shown in figure 11; the mesh on the inner layer tent 5 is shown in fig. 6; the mesh on the middle layer tent 11 is shown in fig. 7; the mesh density of the inner layer tent cloth 5 is more than or equal to 16 holes/5 cm in the vertical direction and more than or equal to 26 holes/5 cm in the transverse direction; the mesh density of the middle layer tent cloth 11 is 12 holes/5 cm in the vertical direction and 22 holes/5 cm in the transverse direction; the mesh density of the outer layer tent cloth 6 is less than 10 holes/5 cm in the vertical direction and less than 20 holes/5 cm in the transverse direction. After the middle layer tent is added, the tent with larger meshes can be used as the outer layer tent, so that mosquitoes can easily enter a gap between the middle layer tent and the outer layer tent, and more mosquitoes can be conveniently caught.

Example 24: the screen window provided by the invention comprises two layers of screen windows with meshes, as shown in figure 12; the two-layer window screening is seen from the front side as shown in fig. 13; the mesh on the casing 14 and the outer layer screen 13 is shown in fig. 14; the mesh on the casing 14 and inner layer screen 12 is shown in fig. 15. Before a person sleeps, the whole window is blocked by the screen window provided by the invention from the room, one surface of the outer layer of the window screen 13 is tightly attached to the window, and one surface of the inner layer of the window screen 12 is close to the inside of the room. In the process that mosquitoes in a room fly out of the room in the morning, the mosquitoes firstly touch the inner layer window screening 12 of the screen window provided by the invention, fall onto the inner layer window screening 12, and after a period of time of effort, the mosquitoes drill through the meshes of the inner layer window screening 12 and enter the gap between the inner layer window screening 12 and the outer layer window screening 13, and try to fly out of the room through the outer layer window screening 13 in an effort, but the mosquitoes do not drill. After getting up, a person holds the mosquito killing agent spraying device and sprays a small amount of mosquito killing agent aiming at mosquitoes between the inner layer window screening 12 and the outer layer window screening 13 of the screen window, and because the mosquitoes can not rapidly pass through the inner layer window screening 12 of the screen window to escape, the mosquitoes can only be trapped in a narrow space with higher concentration of the mosquito killing agent to be killed.

Example 25: the screen window provided by the invention comprises two layers of screen windows with meshes, as shown in figure 12, the distance between the two layers of screen windows is more than 1 mm and less than 400 mm; the two-layer window screening is seen from the front side as shown in fig. 13; the meshes on the outer layer window screen 13 are shown in fig. 14, and the mesh density is that the radial mesh number is more than or equal to 16 meshes/25.4 mm, and the weft mesh number is more than or equal to 16 meshes/25.4 mm; the mesh on the inner layer of window screening 12 is shown in fig. 15, with a mesh density of less than 16 mesh/25.4 mm for the warp direction and less than 16 mesh/25.4 mm for the weft direction.

Example 26: the screen window provided by the invention comprises two layers of screen windows with meshes, as shown in figure 12, the distance between the two layers of screen windows is more than 2 mm and less than 200 mm; the two-layer window screening is seen from the front side as shown in fig. 13; the mesh on the outer layer screen 13 is shown in fig. 14, and the mesh density is 18 mesh/25.4 mm in the warp direction and 18 mesh/25.4 mm in the weft direction; the mesh on the inner layer of the window screening 12 is shown in fig. 15, and the mesh density is 12 mesh/25.4 mm in the radial direction and 12 mesh/25.4 mm in the latitudinal direction.

Example 27: the screen window provided by the invention comprises two layers of screen windows with meshes, and as shown in figure 12, the distance between the two layers of screen windows is 5 mm; the two-layer window screening is seen from the front side as shown in fig. 13; the mesh on the outer layer screen 13 is shown in fig. 14, and the mesh density is 20 mesh/25.4 mm in the warp direction and 20 mesh/25.4 mm in the weft direction; the mesh on the inner layer of the window screening 12 is shown in fig. 15, and the mesh density is 10 mesh/25.4 mm in the warp direction and 10 mesh/25.4 mm in the weft direction.

Example 28: the screen window provided by the invention comprises three layers of screen windows with meshes, as shown in figure 16; the mesh on the casing 14 and the outer layer screen 13 is shown in fig. 14; the mesh on the casing 14 and the intermediate layer screen 15 is shown in fig. 15; the mesh density of the outer layer window screen 13 is 20 meshes/25.4 mm in the radial direction, the mesh density of the weft direction is 20 meshes/25.4 mm, the mesh density of the inner layer window screen 12 is 6 meshes/25.4 mm in the radial direction, the mesh density of the weft direction is 6 meshes/25.4 mm, the mesh density of the middle layer window screen 15 is 10 meshes/25.4 mm in the radial direction, and the mesh density of the weft direction is 10 meshes/25.4 mm; mosquitoes of smaller bodies can pass through the meshes of the inner layer window screening 12 and the intermediate layer window screening 15 but cannot pass through the meshes of the outer layer window screening 13. After the middle layer window screening 15 is added, a larger-mesh window screening can be used as the inner layer window screening 12, so that mosquitoes can easily enter a gap between the middle layer window screening 15 and the inner layer window screening 12, and more mosquitoes can be caught conveniently.

Example 29: the invention provides a screen window for catching mosquitoes, wherein a layer of screen window forming the screen window is coated with transparent viscous substances, and the transparent viscous substances are fly sticking glue. The window screen provided by the invention is used for blocking the whole window from a room before a person sleeps, and after the person is bright in the morning, mosquitoes in the room are stuck on the window screen when the mosquitoes fly out of the room and touch the window screen coated with the transparent adhesive substance, and the mosquitoes can be killed and cleaned after the person gets up.

Example 30: the invention provides a screen window for catching mosquitoes, wherein a layer of screen window forming the screen window is coated with transparent adhesive, and the transparent adhesive is mosquito-stained glue.

Example 31: the invention provides a screen window for catching mosquitoes, wherein a layer of screen window forming the screen window is coated with transparent adhesive substances, and the transparent adhesive substances are emulsion type non-setting adhesives.

Example 32: the invention provides a screen window for catching mosquitoes, wherein a layer of screen window forming the screen window is coated with transparent adhesive, and the transparent adhesive is propylene adhesive.

Example 33: the invention provides a screen window for catching mosquitoes, wherein a layer of screen window forming the screen window is coated with transparent adhesive, and the transparent adhesive is rubber adhesive.

Example 34: the invention provides a screen window for catching mosquitoes, wherein a layer of screen window forming the screen window is coated with transparent adhesive, and the transparent adhesive is a silicone adhesive.

Example 35: the invention provides a screen window, wherein a layer of screen window forming the screen window is coated with transparent viscous substances, and the transparent viscous substances are rosin, tung oil and Arabic gum according to the weight ratio of 2: 1: 1, heating and mixing to obtain a mixture.

Example 36: the invention provides a screen window, wherein a layer of screen window forming the screen window is coated with transparent viscous substances, and the transparent viscous substances are No. 40 lubricating oil and rosin which are mixed according to the weight ratio of 4: 3, heating and mixing to obtain the mixture.

Example 37: the invention provides a screen window, wherein a layer of screen window forming the screen window is coated with transparent viscous substances, and the transparent viscous substances are rosin, castor oil and water according to the weight ratio of 4: 1: 20, heating the mixture in the ratio of 20.

Example 38: the invention provides a screen window, wherein a layer of screen window forming the screen window is coated with transparent viscous substances, and the transparent viscous substances are rosin, pine tar oil and castor oil, and are as follows: 5: 2, heating and mixing to obtain the mixture.

Example 39: the invention provides a screen device comprising glass and a layer of screen with meshes, as shown in figures 17 and 18; glass 16 is shown in fig. 19; the mesh on the casing 14 and inner layer screen 12 is shown in fig. 15. Before sleeping, the screen window device provided by the invention is used for blocking the whole window from the room, one side of the glass 16 is tightly attached to the window, and one side of the inner layer of the window screen 12 is close to the inside of the room. In the process that mosquitoes in a room fly to the outside of the room after morning, the mosquitoes firstly touch the inner layer window screening 12 of the screen device provided by the invention, fall onto the inner layer window screening 12, and after a period of time of effort, the mosquitoes drill through the meshes of the inner layer window screening 12 and enter the gap between the inner layer window screening 12 and the glass 16, and try to fly to the outside of the room through the glass 16, but the mosquitoes do not drill. After getting up, a person holds the mosquito killing agent spraying device and sprays a small amount of mosquito killing agent aiming at the mosquitoes between the inner layer window screening 12 and the glass 16 of the screen window device, and because the mosquitoes can not rapidly pass through the inner layer window screening 12 of the screen window device to escape, the mosquitoes can only be trapped in a narrow space with higher concentration of the mosquito killing agent to be killed.

Example 40: the invention provides a screen device comprising glass and a layer of screen with meshes, as shown in figure 17 and figure 18, the distance between the glass and the screen is greater than 1 mm and less than 400 mm; glass 16 is shown in fig. 19; the mesh on the inner layer of window screening 12 is shown in fig. 15, with a mesh density of less than 16 mesh/25.4 mm for the warp direction and less than 16 mesh/25.4 mm for the weft direction.

Example 41: the invention provides a screen window device, comprising glass and a layer of screen window with meshes, as shown in figure 17 and figure 18, the distance between the glass and the screen window is more than 2 mm and less than 200 mm; glass 16 is shown in fig. 19; the mesh on the inner layer of the window screening 12 is shown in fig. 15, and the mesh density is 10 mesh/25.4 mm in the warp direction and 10 mesh/25.4 mm in the weft direction.

Example 42: the screen window device provided by the invention comprises glass and a layer of screen window with meshes, as shown in figures 17 and 18, the distance between the glass and the screen window is 5 mm; glass 16 is shown in fig. 19; the mesh on the inner layer of the window screening 12 is shown in fig. 15, and the mesh density is 12 mesh/25.4 mm in the radial direction and 12 mesh/25.4 mm in the latitudinal direction.

Example 43: the invention provides a screen window device for catching mosquitoes, wherein a layer of screen window forming the screen window device is coated with transparent viscous substances, and the transparent viscous substances are fly sticking glue. The window screen device provided by the invention is used for blocking the whole window from a room before a person sleeps, and after the person is bright in the morning, mosquitoes in the room touch the window screen coated with the transparent adhesive substance in the process of flying outside the room, so that the mosquitoes are adhered to the window screen, and after the person gets up, the mosquitoes can be killed and cleaned.

Example 44: the invention provides a screen window device for catching mosquitoes, wherein a layer of screen window forming the screen window device is coated with transparent adhesive substances, and the transparent adhesive substances are mosquito-stained glue.

Example 45: the invention provides a screen window device for catching mosquitoes, wherein a layer of screen window forming the screen window device is coated with transparent adhesive substances, and the transparent adhesive substances are hot melt adhesive glue adhesive stickers.

Example 46: the invention provides a screen window device for catching mosquitoes, wherein a layer of screen window forming the screen window device is coated with transparent adhesive substances, and the transparent adhesive substances are emulsion agents and adhesive sticker.

Example 47: the invention provides a screen window device for catching mosquitoes, wherein a layer of screen window forming the screen window device is coated with transparent adhesive, and the transparent adhesive is propylene adhesive.

Example 48: the invention provides a screen window device for catching mosquitoes, wherein a layer of screen window forming the screen window device is coated with transparent adhesive, and the transparent adhesive is rubber adhesive.

Example 49: the invention provides a screen window device for catching mosquitoes, wherein a layer of screen window forming the screen window device is coated with transparent adhesive, and the transparent adhesive is a silicone adhesive.

Example 50: the invention provides a screen window device for catching mosquitoes, wherein a layer of screen window forming the screen window device is coated with transparent viscous substances, and the transparent viscous substances are rosin, tung oil and Arabic gum according to the weight ratio of 2: 1: 1, heating and mixing to obtain a mixture.

Example 51: the invention provides a screen window device for catching mosquitoes, wherein a layer of screen window forming the screen window device is coated with transparent viscous substances, the transparent viscous substances are No. 40 lubricating oil, rosin are mixed according to the weight ratio of 4: 3, heating and mixing to obtain the mixture.

Example 52: the invention provides a screen window device for catching mosquitoes, wherein a layer of screen window forming the screen window device is coated with transparent viscous substances, and the transparent viscous substances are rosin, castor oil and water according to the weight ratio of 4: 1: 20, heating the mixture in the ratio of 20.

Example 53: the invention provides a screen window device for catching mosquitoes, wherein a layer of screen window forming the screen window device is coated with transparent viscous substances, and the transparent viscous substances are rosin, pine tar oil and castor oil, and are as follows: 5: 2, heating and mixing to obtain the mixture.

Example 54: the invention provides a screen window device for catching mosquitoes, wherein the glass forming the screen window device is coated with transparent viscous substances, and the transparent viscous substances are rosin, pine tar oil and castor oil, and are in a proportion of 8: 5: 2, heating and mixing to obtain the mixture. Before sleeping, the screen window device provided by the invention is used for blocking the whole window from the room, and the side coated with the transparent adhesive substance faces the inside of the room. After the mosquito killer is lighted in the morning, mosquitoes in a room are stuck on the glass coated with the transparent viscous substance when the mosquitoes fly out of the room, and can be killed and cleaned after people get up.

Example 55: the screen window device provided by the invention comprises a layer of glass 16, an inner layer of screen window 12 and an intermediate layer of screen window 15, as shown in figure 20; the mesh on the casing 14 and the intermediate layer screen 15 is shown in fig. 15; the mesh density of the inner layer window screening 12 is 6 meshes/25.4 mm in the radial direction, the mesh density of the weft direction is 6 meshes/25.4 mm, the mesh density of the middle layer window screening 15 is 12 meshes/25.4 mm in the radial direction, and 12 meshes/25.4 mm in the weft direction; mosquitoes of smaller bodies can pass through the meshes of the inner layer window screening 12 and the middle layer window screening 15. After the middle layer window screening 15 is added, a larger-mesh window screening can be used as the inner layer window screening 12, so that mosquitoes can easily enter a gap between the middle layer window screening 15 and the inner layer window screening 12, and more mosquitoes can be caught conveniently.

Example 56: the invention provides a device for catching mosquitoes, which comprises a window screen 17 and an outer frame 14; the window screening 17 is coated with a transparent adhesive substance, and the area of the window screening 17 is not less than the area of the whole window 4, as shown in fig. 21; the transparent viscous substance is fly glue. The device for catching mosquitoes provided by the invention is used for blocking the whole window before people sleep, and after the people sleep, the mosquitoes in the room firstly touch the window screen 17 in the process of flying to the outside of the room, the mosquitoes are stuck by the transparent sticky substances on the window screen 17, and after the people get up, the mosquitoes are killed and cleaned.

Example 57: the mosquito catching device of the present invention comprises a mosquito net cloth 18 and a frame 14, as shown in fig. 22; the mosquito net cloth 18 is coated with transparent adhesive substances, and the area of the mosquito net cloth 18 is not less than the area of the whole window 4; the transparent viscous substance is No. 40 lubricating oil and rosin, and the weight ratio of the transparent viscous substance to the rosin is 4: 3, heating and mixing to obtain the mixture.

Example 58: the mosquito catching device provided by the invention comprises a glass 16, wherein one surface of the glass 16 close to the inside of a room is coated with a transparent adhesive substance, and the area of the glass 16 is not less than the area of the whole window 4, as shown in fig. 23; the transparent viscous substance is rosin, tung oil and Arabic gum according to the weight ratio of 2: 1: 1, heating and mixing to obtain a mixture. The device for catching mosquitoes provided by the invention is used for blocking the whole window before people sleep, and after the people sleep, mosquitoes in a room firstly touch one surface of the glass 16 close to the inside of the room in the process of flying to the outside of the room after the people are bright in the morning, the mosquitoes are stuck by the transparent adhesive substance on the glass 16, and after the people get up, the mosquitoes are killed and cleaned.

Example 59: the device for catching mosquitoes provided by the invention comprises a mosquito net cloth 18 coated with transparent viscous substances and an outer frame 14, wherein the outer frame 14 is provided with a suction cup 19, and the suction cup 19 can suck the wall around a window, as shown in figure 24; the transparent viscous substance is rosin, castor oil and water according to the ratio of 4: 1: 20, heating the mixture in the ratio of 20.

Example 60: the device for catching mosquitoes provided by the present invention comprises a mosquito net cloth 18 coated with transparent adhesive substance and a frame 14, wherein the frame 14 is connected with a bracket 20, the bracket 20 fixes the mosquito net cloth 18 in the room near the window, as shown in fig. 25; the transparent adhesive substance is a silicone adhesive.

Example 61: the device for catching mosquitoes provided by the invention comprises a window screen 17 coated with transparent adhesive substances and an outer frame 14, wherein the outer frame 14 is connected with a bracket 20, a suction cup 19 is arranged on the bracket 20, and the suction cup 19 and the bracket 20 fix the window screen 17 at a position close to a window in a room, as shown in figure 26; the transparent viscous substance is propylene adhesive.

Example 62: the device for catching mosquitoes provided by the present invention comprises a glass 16 coated with transparent adhesive and a suction cup 19, wherein the suction cup 19 fixes the glass 16 near the window 4 in the room, as shown in fig. 27; the transparent adhesive substance is a hot melt adhesive sticker.

Example 63: the single-layer screen window comprises an outer frame 14 and a single-layer screen window 17, wherein the outer frame 14 is provided with a sucker 19, the sucker 19 can suck the wall around the window, and as shown in figure 28, the mesh density of the single-layer screen window is that the radial mesh number is less than 16 meshes/25.4 mm, and the latitudinal mesh number is less than 16 meshes/25.4 mm.

Example 64: the single-layer screen window comprises an outer frame 14 and a single-layer screen window 17, wherein the outer frame 14 is provided with a sucker 19, the sucker 19 can suck the wall around the window, and as shown in figure 29, the mesh density of the single-layer screen window is 10 meshes/25.4 mm in the radial direction, and 10 meshes/25.4 mm in the latitudinal direction.

The above description of the embodiments is only for the understanding of the present invention. It should be noted that modifications could be made to the invention without departing from the principle of the invention, which would also fall within the scope of the claims of the invention, for a person skilled in the art.

Claims (10)

1. A method of trapping mosquitoes, comprising: before a person sleeps, a single layer of mesh cloth is hung outside a standard mosquito net at a distance of more than 1 mm from the standard mosquito net, transparent sticky substances are coated on window glass and a screen window, and a single layer of mesh cloth is hung in a room at a distance of more than 1 mm from the window glass and the screen window; when a person sleeps in the standard mosquito net, the mosquitoes outside the mosquito net firstly touch the hung single-layer eyelet fabric in the process of flying to the human body, fall onto the hung single-layer eyelet fabric, drill through meshes of the hung single-layer eyelet fabric after a period of time of effort, enter a gap between the hung single-layer eyelet fabric and the standard mosquito net, climb onto or fly onto the standard mosquito net, try to drill into the standard mosquito net through the effort, and cannot drill into the standard mosquito net; when a person wakes up, the mosquito killing agent spraying device which is placed on the bed in advance is taken up in the mosquito net, a small amount of mosquito killing agent is sprayed aiming at the mosquitoes between the standard mosquito net and the hung single-layer eyelet fabric, and the mosquitoes can not quickly escape through the hung single-layer eyelet fabric and are trapped in a narrow space and killed by the mosquito killing agent; after a person gets up, the person holds the mosquito killing agent spraying device and sprays a small amount of mosquito killing agent aiming at mosquitoes between the glass of the window, the screen window and the hung single-layer eyelet fabric, and the mosquitoes can not quickly pass through the hung single-layer eyelet fabric to escape and are trapped in a narrow space and killed by the mosquito killing agent; the single layer of the mesh cloth was taken away, and mosquitoes stuck to the glass and the screen window coated with the transparent adhesive were exterminated and removed.

2. A method of trapping mosquitoes as claimed in claim 1, wherein: the mesh density of the single-layer mesh cloth is less than 16 holes/5 cm in the vertical direction and less than 26 holes/5 cm in the transverse direction, and the transparent adhesive substance is glue capable of adhering mosquitoes.

3. A mosquito net capable of catching mosquitoes comprises an inner layer net cloth, and is characterized in that: the mosquito net further comprises an outer layer net cloth, wherein the meshes of the outer layer net cloth are larger than those of the inner layer net cloth, and mosquitoes can pass through the meshes of the outer layer net cloth but cannot pass through the meshes of the inner layer net cloth.

4. The mosquito net of claim 3, wherein: the mesh density on the inner layer tent cloth is more than or equal to 16 holes/5 cm in the vertical direction and more than or equal to 26 holes/5 cm in the transverse direction; the mesh density of the outer layer net cloth is less than 16 holes/5 cm in the vertical direction and less than 26 holes/5 cm in the transverse direction.

5. The utility model provides a screen window that can catch mosquito, includes the frame, its characterized in that: the window screen also comprises an outer layer window screen and an inner layer window screen, wherein the mesh density of the outer layer window screen is that the radial mesh number is more than or equal to 16 meshes/25.4 mm, the latitudinal mesh number is more than or equal to 16 meshes/25.4 mm, and the mesh density of the inner layer window screen is that the radial mesh number is less than 16 meshes/25.4 mm, and the latitudinal mesh number is less than 16 meshes/25.4 mm; the distance between the outer layer window screening and the inner layer window screening is larger than 1 mm.

6. The utility model provides a screen window device for catching mosquito, includes the frame, its characterized in that: the glass window screen comprises a glass layer and at least one window screen layer, wherein the window screen layer farthest from the glass is an inner layer window screen, and the mesh density of the inner layer window screen is that the radial mesh number is less than 16 meshes/25.4 mm, and the weft mesh number is less than 16 meshes/25.4 mm; the distance between the inner layer window screening and the glass is greater than 1 millimeter.

7. A device for trapping mosquitoes comprising a planar object having a thickness of less than 9 cm, characterized in that: sunlight can penetrate through the plane object, and the plane object is coated with transparent viscous substances which can stick to mosquitoes.

8. The apparatus for catching mosquitoes as claimed in claim 7, wherein: the plane object is provided with a sucker which can suck the wall around the window.

9. The utility model provides a catch single-deck screen window of mosquito, includes frame and single-deck screen window, its characterized in that: the mesh density of the single-layer window screen is that the radial mesh number is less than 16 meshes/25.4 mm, the latitudinal mesh number is less than 16 meshes/25.4 mm, and the outer frame is tightly attached to the wall around the window through a sucking disc, so that the single-layer window screen, the glass of the window and the original standard screen window form a space together.

10. The single layer screen of claim 9, wherein: the mesh density of the single layer window screen is that the radial mesh number is less than 12 meshes/25.4 mm and more than 8 meshes/25.4 mm, and the weft mesh number is less than 12 meshes/25.4 mm and more than 8 meshes/25.4 mm.

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