CN213063428U

CN213063428U - Screen window

Info

Publication number: CN213063428U
Application number: CN202021361307.1U
Authority: CN
Inventors: 张峻齐
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-12
Filing date: 2020-07-12
Publication date: 2021-04-27
Anticipated expiration: 2030-07-12

Abstract

The utility model provides a can catch screen window of mosquito, including frame, outer window screening and inlayer window screening, the mesh density of outer window screening is more than or equal to 16 meshes/25.4 millimeters for radial mesh number, and 16 meshes/25.4 millimeters is more than or equal to latitudinal direction mesh number, the mesh density of inlayer window screening is less than 16 meshes/25.4 millimeters for radial mesh number, and latitudinal direction mesh number is less than 16 meshes/25.4 millimeters. At least one intermediate layer of window screening can be arranged between the outer layer of window screening and the inner layer of window screening. The utility model discloses screen window utilizes the mosquito to fly to the room outside chance after morning is bright, traps the mosquito between inlayer window screening and outer window screening, is convenient for follow-up through spouting methods such as a small amount of mosquitocide or power consumption mosquito swatter and concentrates on eliminating the mosquito that is caught. The utility model provides a screen window is through gluing the mosquito on the window screening that scribbles the viscidity material, and the people can directly eliminate them and clear up to the injury that causes when avoiding killing the mosquito with the kill mosquito agent.

Description

Screen window

Technical Field

The utility model relates to a mosquito prevention and cure technical field especially relates to a screen window that can catch mosquito.

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.

SUMMERY OF THE UTILITY MODEL

In order to make up the defects of the existing mosquito control method and the device, the utility model provides a screen window which can catch the mosquito and is convenient for concentratedly killing the caught mosquito by spraying a small amount of mosquito killing agent or using an electric mosquito swatter and other methods in the follow-up 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 utility model provides a screen window of catching mosquito, including the frame, still include outer window screening and inlayer window screening, the mesh density of outer window screening is that radial mesh number is more than or equal to 16 meshes/25.4 millimeters, latitudinal direction mesh number is more than or equal to 16 meshes/25.4 millimeters, the mesh density of inlayer window screening is that radial mesh number is less than 16 meshes/25.4 millimeters, latitudinal direction mesh number is less than 16 meshes/25.4 millimeters; the distance between the outer layer window screening and the inner layer window screening is larger than 1 mm.

The utility model provides a screen window of catching mosquito, including the frame, still include outer window screening and inlayer window screening, the mesh density of outer window screening is radial mesh number not less than 16 meshes/25.4 millimeter and is less than 25 meshes/25.4 millimeter, latitudinal direction mesh number not less than 16 meshes/25.4 millimeter and is less than 25 meshes/25.4 millimeter, the mesh density of inlayer window screening is radial mesh number less than 16 meshes/25.4 millimeter and is greater than 4 meshes/25.4 millimeter, latitudinal direction mesh number less than 16 meshes/25.4 millimeter and is greater than 4 meshes/25.4 millimeter; 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 utility model provides a screen window of catching mosquito, including the frame, still include outer window screening and inlayer window screening, the mesh density of outer window screening is radial mesh number not less than 18 mesh/25.4 millimeter and is less than 23 mesh/25.4 millimeter, and latitudinal direction mesh number not less than 18 mesh/25.4 millimeter and is less than 23 mesh/25.4 millimeter, the mesh density of inlayer window screening is radial mesh number less than 14 mesh/25.4 millimeter and is greater than 6 mesh/25.4 millimeter, latitudinal direction mesh number less than 14 mesh/25.4 millimeter and is greater than 6 mesh/25.4 millimeter; 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 utility model provides a screen window of catching mosquito, including the frame, still include outer window screening and inlayer window screening, the mesh density of outer window screening is radial mesh number not less than 20 mesh/25.4 millimeter and is less than 22 mesh/25.4 millimeter, latitudinal direction mesh number not less than 20 mesh/25.4 millimeter and is less than 22 mesh/25.4 millimeter, the mesh density of inlayer window screening is radial mesh number less than 12 mesh/25.4 millimeter and is greater than 8 mesh/25.4 millimeter, latitudinal direction mesh number less than 12 mesh/25.4 millimeter and is greater than 8 mesh/25.4 millimeter; 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 utility model provides a screen window of catching mosquito, including the frame, still include outer window screening and inlayer window screening, the mesh density of outer window screening is 22 meshes/25.4 millimeters for radial mesh number, 22 meshes/25.4 millimeters for latitudinal direction mesh number, the mesh density of inlayer window screening is 10 meshes/25.4 millimeters for radial mesh number, 10 meshes/25.4 millimeters for latitudinal direction mesh number; 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 utility model provides a screen window for catching mosquitoes, which comprises an outer frame, an outer layer window screen, an inner layer window screen and at least one layer of middle layer window screen positioned between the inner layer window screen and the outer layer window screen; 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 utility model provides a screen window of catching mosquito coats on the at least one deck screen window that constitutes the screen window and is scribbled transparent viscidity material, transparent viscidity material can glue the mosquito.

The transparent adhesive substance is coated on the window screen of the screen window, and the transparent adhesive substance is fly glue or mosquito glue.

The utility model provides a screen window of catching mosquito coats transparent viscidity material on the screen window of screen window, transparent viscidity material is hot melt adhesive class non-setting adhesive or emulsion class non-setting adhesive.

The utility model provides a screen window of catching mosquito coats transparent viscidity material on the screen window of screen window, transparent viscidity material is acrylic class viscose, rubber class viscose or silicone type viscose.

The utility model provides a screen window of catching mosquito coats transparent viscidity material on the screen window of screen window, transparent viscidity material is rosin, tung oil, arabic gum according to 2: 1: 1, heating and mixing to obtain a mixture.

The utility model provides a screen window of catching mosquito coats transparent viscidity material on the screen window of screen window, transparent viscidity material is No. 40 lubricating oil, rosin according to 4: 3, heating and mixing to obtain the mixture.

The utility model provides a screen window of catching mosquito coats transparent viscidity material on the screen window of screen window, transparent viscidity material is rosin, castor oil, water according to 4: 1: 20, heating the mixture in the ratio of 20.

The utility model provides a screen window of catching mosquito coats transparent viscidity material on the screen window of screen window, transparent viscidity material is rosin, pine tar, castor oil according to 8: 5: 2, heating and mixing to obtain the mixture.

Use before people sleep the utility model provides a screen window blocks whole window from the room in, places the utility model discloses let outer window screening hug closely the window as far as possible during the screen window, let inlayer window screening be close to the room the inside. After morning is bright, the mosquito in the room is at the in-process that flies outside the room, at first touch the utility model provides an inlayer window screening of screen window, the mosquito falls on the inlayer window screening, drills the mesh of inlayer window screening after a period of time's effort, gets into the space between inlayer window screening and the outer window screening, tries to drill through outer window screening through the effort and flies outside the room, but bores not past. After the people got up, held mosquito eradication agent sprinkler, aimed at and be in the utility model discloses mosquito between the inlayer window screening and the outer window screening of screen window spouts a small amount of mosquito eradication agent, because the mosquito can't pass rapidly the utility model discloses the inlayer window screening of screen window escapes, so can only be stranded and killed in the higher narrow and small space of mosquito eradication agent concentration.

Use before people sleep the utility model provides a screen window blocks whole window from the room in, after morning, the mosquito in the room is at the in-process that flies outside the room, touch the utility model provides a window screening that scribbles transparent viscidity material on the screen window just is glued on the window screening, and the people gets up the back, just can eliminate the mosquito and clear up.

The utility model has the advantages 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 utility model provides a screen window is through stranded the mosquito between the inlayer window screening and other window screening of screen window, is convenient for follow-up with the mosquito in the method elimination room of minimum injury to the people. If the mosquito killer is used for killing the caught 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 caught 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.

2. The utility model provides a screen window is through gluing the mosquito on the window screening that scribbles transparent viscidity material, and the people can directly eliminate them and clear up to the injury that causes when avoiding killing mosquito with the kill mosquito agent.

3. The utility model provides a screen window manufacturing cost is very low.

Drawings

FIG. 1 is a partial view of a screen of a double layer window screen;

FIG. 2 is a partial view of a screen of a double layer window screen;

FIG. 3 is a schematic view of an outer layer window screen;

FIG. 4 is a schematic view of an inner layer window screen;

fig. 5 is a partial view of a screen of a three-layer window screen.

In the figure, 1. inner layer window screening; 2. an outer layer window screening; 3. an outer frame; 4. and (4) middle layer window screening.

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 structures 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: the screen window provided by the utility model comprises two layers of screen window with meshes, as shown in figure 1; the two layers of window screening are seen from the front side as shown in figure 2; the meshes on the outer frame 3 and the outer layer window screening 2 are shown in figure 3; the mesh on the outer frame 3 and the inner screen 1 is shown in fig. 4. Use before people sleep the utility model provides a screen window keeps off whole window from the room in, lets the window tightly hugged closely in the one side of outer window screening 2, and the one side of inlayer window screening 1 is close to the room the inside. After morning is bright, the mosquito in the room is at the in-process that flies outside the room, at first touch the utility model provides an inlayer window screening 1 of screen window, on the mosquito fell to inlayer window screening 1, drilled the mesh of inlayer window screening 1 after a period of time's effort, got into the space between inlayer window screening 1 and the outer window screening 2, tried to drill through outer window screening 2 and fly outside the room through the effort, nevertheless bored not past. After the people got up, held mosquito eradication agent sprinkler, aim at the mosquito that is in between the inlayer window screening 1 and the outer window screening 2 of screen window and spout a small amount of mosquito eradication agent, because the mosquito can't pass rapidly the utility model discloses inlayer window screening 1 of screen window escapes, so can only be stranded and killed in the higher narrow and small space of mosquito eradication agent concentration.

Example 2: the screen window provided by the utility model comprises two layers of screen window with meshes, as shown in figure 1, the distance between the two layers of screen window is more than 1 mm and less than 400 mm; the two layers of window screening are seen from the front side as shown in figure 2; the meshes on the outer layer window screen 2 are shown in figure 3, and the mesh density is that the radial mesh number is more than or equal to 16 meshes/25.4 mm, and the latitudinal mesh number is more than or equal to 16 meshes/25.4 mm; the mesh on the inner layer window screening 1 is shown in fig. 4, and the mesh density 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.

Example 3: the screen window provided by the utility model comprises two layers of screen window with meshes, as shown in figure 1, the distance between the two layers of screen window is more than 2 mm and less than 200 mm; the two layers of window screening are seen from the front side as shown in figure 2; the mesh on the outer layer window screening 2 is shown in fig. 3, and the mesh density is 18 meshes/25.4 mm in the radial direction and 18 meshes/25.4 mm in the weft direction; the mesh on the inner layer window screen 1 is shown in fig. 4, 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 4: the screen window provided by the utility model comprises two layers of screen window with meshes, as shown in figure 1, the distance between the two layers of screen window is 5 mm; the two layers of window screening are seen from the front side as shown in figure 2; the mesh on the outer layer window screening 2 is shown in fig. 3, and the mesh density is 20 meshes/25.4 mm in the radial direction and 20 meshes/25.4 mm in the latitudinal direction; the mesh on the inner layer window screen 1 is shown in fig. 4, and the mesh density is 10 mesh/25.4 mm in the radial direction and 10 mesh/25.4 mm in the latitudinal direction.

Example 5: the utility model provides a screen window of catching mosquito coats transparent viscidity material on the one deck screen window of constituteing the screen window, transparent viscidity material is for being stained with the fly glue. Use before people sleep the utility model provides a screen window blocks whole window from the room in, after morning, the mosquito in the room is at the in-process that flies outside the room, touch the utility model provides a window screening that scribbles transparent viscidity material just is glued on the window screening, and the people gets up the bed after, just can eliminate the mosquito and clear up.

Example 6: the utility model provides a screen window of catching mosquito coats transparent viscidity material on the one deck window screening that constitutes the screen window, transparent viscidity material is stained with the mosquito and glues.

Example 7: the utility model provides a screen window of catching mosquito coats on the one deck window screening that constitutes the screen window and is transparent viscidity material, transparent viscidity material is hot melt adhesive class non-setting adhesive.

Example 8: the utility model provides a screen window of catching mosquito coats transparent viscidity material on the one deck window screening that constitutes the screen window, transparent viscidity material is emulsion class non-setting adhesive.

Example 9: the utility model provides a screen window of catching mosquito coats on the one deck window screening that constitutes the screen window and is transparent viscidity material, transparent viscidity material is propylene class adhesive.

Example 10: the utility model provides a screen window of catching mosquito coats on the one deck window screening that constitutes the screen window and is transparent viscidity material, transparent viscidity material is rubber class adhesive.

Example 11: the utility model provides a screen window of catching mosquito coats transparent viscidity material on the one deck screen window of constituteing the screen window, transparent viscidity material is silicone type adhesive.

Example 12: the utility model provides a screen window coats on the one deck window screening that constitutes the screen window and is transparent viscidity material, transparent viscidity material is rosin, tung oil, arabic gum according to 2: 1: 1, heating and mixing to obtain a mixture.

Example 13: the utility model provides a screen window coats on the one deck window screening that constitutes the screen window and is transparent viscidity material, transparent viscidity material is No. 40 lubricating oil, rosin according to 4: 3, heating and mixing to obtain the mixture.

Example 14: the utility model provides a screen window coats on the one deck window screening that constitutes the screen window and is equipped with transparent viscidity material, transparent viscidity material is rosin, castor oil, water according to 4: 1: 20, heating the mixture in the ratio of 20.

Example 15: the utility model provides a screen window coats on the one deck window screening that constitutes the screen window and is equipped with transparent viscidity material, transparent viscidity material is rosin, pine distillation oil, castor oil according to 8: 5: 2, heating and mixing to obtain the mixture.

Example 16: the screen window provided by the utility model comprises three layers of screen window with meshes, as shown in figure 5; the meshes on the outer frame 3 and the outer layer window screening 2 are shown in figure 3; the mesh on the outer frame 3 and the intermediate layer screen 4 is shown in fig. 4; the mesh density of the outer layer window screen 2 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 1 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 4 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 1 and the middle layer window screening 4 but cannot pass through the meshes of the outer layer window screening 2. After the middle layer window screening 4 is added, the window screening with larger meshes can be used as the inner layer window screening 1, so that mosquitoes can easily enter a gap between the middle layer window screening 4 and the inner layer window screening 1, and more mosquitoes can be conveniently caught.

The above description of the embodiments is only intended to illustrate the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several modifications can be made to the present invention, and these modifications will fall into the protection scope of the claims of the present invention.

Claims

1. The utility model provides a screen window for 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.

2. A screen according to claim 1, wherein: the mesh density of the outer layer window screening 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 weft 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 screening is that the radial mesh number is less than 16 meshes/25.4 mm and more than 4 meshes/25.4 mm, and the weft 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.

3. A screen according to claim 2, wherein: the mesh density of the outer layer window screening 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 weft 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 screening is that the radial mesh number is less than 14 meshes/25.4 mm and more than 6 meshes/25.4 mm, and the weft 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.

4. A screen according to claim 3, wherein: the mesh density of the outer layer window screening 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 weft 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 screening 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; the distance between the outer layer window screening and the inner layer window screening is greater than 3 millimeters and less than 30 millimeters.

5. A screen according to claim 4, wherein: the mesh density of the outer layer window screening 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 window screening is 10 meshes/25.4 mm in the radial direction, and the mesh density of the weft direction is 10 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.

6. A screen according to any of claims 1 to 5, wherein: at least one layer of intermediate window screening positioned between the inner layer of window screening and the outer layer of window screening; the mesh density of the intermediate layer screen is greater than the mesh density of the inner layer screen and less than the mesh density of the outer layer screen.

7. A screen according to any of claims 1 to 5, wherein: at least one layer of the screen constituting the screen is coated with a transparent adhesive substance capable of sticking mosquitoes.

8. A screen according to claim 6, wherein: at least one layer of the screen constituting the screen is coated with a transparent adhesive substance capable of sticking mosquitoes.