KR20110133377A - Insect net having yellow sand excluding function - Google Patents

Abstract

PURPOSE: A screen for preventing yellow sand is provided to ensure durability and stability in a shape even after long-term exposure to sun. CONSTITUTION: A screen for preventing yellow sand is as follows. The screen is installed on a window or a door. A monofilament mesh(20) is bonded to ones surface of a fiber glass mesh(10). The monofilament mesh uses synthetic monofilament yarn, which has a 60 micrometers or less diameter and is very static. The aperture of the monofilament mesh is within a range of 40~60%. Only one surface of the monofilament mesh has water repellency.

Description

Insect net having yellow sand excluding function}

The present invention relates to a insect repellent screen, and more particularly, to a insect repellent insect screen having excellent visibility while preventing a penetration of pests such as flies and mosquitoes, as well as yellow dust.

Insect screens are often installed in windows and doors to prevent pests such as flies and mosquitoes from entering the interior.

 These insect screens are usually made of a metal mesh material with a pore size that is small enough to enter small pests such as mosquitoes. The pore size is unsuitable for blocking yellow dust, pollen, and urban dust. Even small-sized pests can enter the crevices.

In order to solve this problem, a type of yellow dust prevention screen has been proposed to block fine contaminants such as yellow dust.

For example, Korean Patent No. 779132 discloses fiber glass meshes; Including a nonwoven fabric bonded to one surface of the fiber glass mesh is configured to be rolled and used, the non-woven fabric has been proposed an environmental insect screen consisting of a coating or impregnated with a photocatalyst and a water repellent.

This insect repellent net not only has the effect of blocking the invasion of pests, but also has the effect of removing non-woven fabrics as a filter to remove fine contaminants. There is a disadvantage that the visibility is not good because it is not vulnerable to ventilation as the open pores are not formed, and the transmission of light is limited.

In addition, the nonwoven fabric used in the environmental insect net is treated with a water repellent body to solve the problem of the nonwoven fabric is wet, which is not only low adhesion due to poor adhesion to the fiberglass mesh, but also between the fiberglass mesh and the nonwoven fabric There was also a problem that could not be removed because of dust and fine pests.

The present invention solves the problems of the insect repellent screen improved to have the conventional anti-yellowing function, as well as blocking the intrusion of pests, as well as blocking the passage of yellow dust and living dust, as well as excellent dust prevention screen in terms of breathability and visibility It is characterized by providing.

Yellow dust prevention screen according to the present invention for solving the above problems,

In the insect screen installed in the window or door,

On one surface of the mesh made of fiber glass, a monofilament mesh woven so as to have a pore size of 150 μm or less by using a static-charged synthetic fiber monofilament yarn having a yarn diameter of 60 μm or less is bonded and integrated.

Preferably, the monofilament mesh is processed to have water repellency on only one surface, and furthermore, the monofilament mesh is modified on one surface by UV treatment after double-sided water repellent processing to increase hydrophilicity and thus adhesion to fiber glass mesh. It is more preferable to improve this.

Yellow dust prevention screen according to the present invention according to the above configuration, as well as blocking pests, there is an effect that can effectively block fine contaminants such as yellow dust, dust and other infectious bacteria by the static electricity of the fine opening of the monofilament mesh. .

In addition, since the yellow dust prevention screen according to the present invention is reinforced by a fiberglass mesh, there is an advantage that it can be used for a long time excellent in durability and shape stability not only in the early stages but also after being exposed to sunlight for a long time.

  Particularly, according to a preferred embodiment of the present invention, since the monofilament mesh is used to modify the surface by UV treatment or the like to have water repellency on only one surface, the bonding with the fiberglass mesh is excellent, and thus the shape is formed by peeling the adhesive surface. It is effective in preventing the occurrence of problems such as poor stability or dust and fine pests in between.

1 is a perspective view showing a state in which the insect screen according to the present invention is applied to the insect screen;
Figure 2 is a schematic diagram showing the longitudinal cross-sectional structure of the anti-dust screen screen according to the present invention;
Figure 3 is a schematic diagram showing a planar structure of the anti-dust screen screen according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

The anti-dust screen 1 according to the present invention is used to be fixed to the insect screen 100 is installed in the window or door as shown in Figure 1, as shown in the longitudinal cross-sectional structure of Figure 2, the fiberglass mesh ( The monofilament mesh 20 is bonded to one surface of 10) to form a single body.

Here, the monofilament mesh 20 is woven so as to have a pore size of 150 μm or less using a synthetic fiber monofilament yarn having a large diameter of 60 μm or less in yarn diameter. If the yarn diameter of the monofilament mesh is too large, the pore size should be increased in order to increase the porosity, and thus there is a problem that the yellow sand collecting efficiency is lowered. Therefore, the monofilament mesh 20 excellent in both air permeability and yellow dust collection efficiency can be obtained only when the yarn diameter and pore size are within the above range.

And preferably, the diameter of the yarn and the pore size, that is, the density of the yarn is appropriately adjusted so that the open area is in the range of about 40 to 60%. The porosity greatly affects the air permeability. If the porosity is too large, the yellow dust prevention effect can not be properly exhibited. If the porosity is too small below the above range, the air permeability is poor, which is undesirable. The porosity can be calculated by the following formula in relation to the diameter (D) of the yarn and the pore size (M).

Opening Rate (%) = M ² / (M + D) ²

According to this embodiment, by using a 20 denier PET monofilament with a yarn diameter (D) of 45, we design the density of the warp and weft directions to 200 strands / inch, respectively, and weave the size of the opening so that the opening size becomes 82 μm. A monofilament mesh of 42% was obtained. The air permeability of this fabric is about 735 cm 3 / cm 2 / sec when tested with a test area of 20 cm 2 and a static pressure of 200 Pa according to KS K 0570: 2006. The monofilament mesh having such a structure can effectively filter out yellow dust, various dusts, and infectious bacteria by causing friction with natural wind to generate fine static electricity.

According to the present embodiment, the monofilament mesh 10 is used by applying a water repellent treatment using a fluorine-based water repellent or the like to the surface of the ultraviolet absorbent treatment and the rain water for the purpose of providing durability against sunlight.

The fiber glass mesh 10 is a woven mesh of glass fiber yarn coated with PVC on the surface of the glass fiber multi yarn in the form of a mesh is used that the yarn diameter and opening is more than twice larger than the monofilament mesh 20. It is preferred to use a warp yarn density of 18-22 strands / inch and a pore size of 800-1000 μm.

The fiberglass mesh 10 and the monofilament mesh 20 are bonded to each other using an adhesive 40. The adhesive is applied to the adhesive surface of the fiberglass mesh 10 so as not to block fine openings of the monofilament mesh 20, and in order to prevent the opening O of the monofilament mesh 20 by the adhesive so as not to lose breathability. Maintain a constant viscosity to apply a constant thickness of about 10 ~ 15㎛.

On the other hand, when using the water-repellent process as in the present embodiment as the monofilament mesh 20, using a one-sided processing technology that performs the water-repellent process only on one surface can be made firmly bonded to the fiberglass mesh 10 However, practical techniques for single-sided processing on mesh-shaped paper with larger openings than general textile papers are not known.

Therefore, in general, both sides of the water-repellent treatment is made at the same time, the monofilament mesh 20 is a water-repellent treatment is poor adhesion to the fiberglass mesh 10 is likely to cause poor adhesion. Therefore, in the present embodiment, a short wavelength UV is applied to one surface of the water repellent monofilament mesh 20 to perform UV surface modification to increase hydrophilicity through surface modification.

The UV surface modification treatment is a principle of increasing hydrophilicity by increasing the polarity of the surface by cleaving a chemical bond by the ozone generated by applying a short-wavelength ultraviolet light with strong energy to generate carbonyl, carboxyl, hydroxyl, etc., The surface of the monofilament mesh 20 treated with the water repellent agent 30 can be modified to increase hydrophilicity by modifying the surface without impacting the product and impacting the product at a relatively low cost. It is suitable for improving the adhesiveness with.

In order to improve the adhesion between the fiberglass mesh 10 and the monofilament mesh 10 treated with the water repellent 30, a method such as corona discharge treatment or plasma treatment may be used in addition to the above-described UV surface modification treatment. However, these methods are less advantageous than UV surface modification treatment in practical terms, such as high equipment cost, high treatment cost, and high surface damage.

On the other hand, in the above described the configuration of the present invention for the embodiment of the form fixed to the insect screen 100, but the anti-yellowing screen 1 according to the present invention by producing a screen screen, such as the screen screen rolls known Of course, it can also be used.

1: Yellow dust screen
10: fiberglass mesh
20: monofilament mesh
30: water repellent
40: adhesive
100: insect screen

Claims (4)

In the insect screen installed in the window or door,
An anti-dust screen, characterized in that the monofilament mesh woven to a pore size of 150 μm or less is bonded to one surface of a mesh made of fiber glass so as to have a pore size of 150 μm or less by using an electrostatic synthetic filament monofilament yarn having a yarn diameter of 60 μm or less. According to claim 1, wherein the monofilament mesh anti-dust screen, characterized in that the porosity range 40 to 60%. According to claim 1, wherein the monofilament mesh anti-dust screen, characterized in that the machined to have a water repellent only on one surface. 4. The anti-rust screen according to claim 3, wherein the monofilament mesh improves hydrophilicity by modifying the surface of the monofilament mesh by UV treatment on one surface after water repellent processing on both sides.

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