KR20120054774A - A production method of anti fouling air duct - Google Patents

Abstract

PURPOSE: A manufacturing method for an air duct having an anti-fouling function is provided to prevent various harmful materials from sticking to a duct and apply a function of separating dust inside the duct. CONSTITUTION: A manufacturing method for an air duct having an anti-fouling function comprises next steps. Slippery property of an inner surface of an air conditioning duct(1) is increased so dust and oil stains(200) do not stick. Germs, mold and organic materials(300) are decomposed for oneself. In order to increase the slippery property, polyether degeneration dimethyl polysiloxane series or wax affiliated slippery agents(20) processed with polymerization are used. Oxygen catalysts(30) which activates titanium dioxide with the oxygen and moistures in order to decompose the organic materials for oneself are used.

Description

A Production Method of Anti fouling Air Duct

The present invention relates to an air duct used as an air passage for air conditioning (building heating, ventilation and air conditioning) of the building, and more particularly, to prevent dust from adhering to the surface of the duct, It is a method of manufacturing antifouling function air ducts by applying a function that removes harmful substances by themselves to keep the inside of the air ducts that are difficult to clean once installed.

      In general, most people who drink 1.5 liters of water a day should drink more than 10,000 liters of air per day, unlike most people who use water purifiers or buy bottled water, but the seriousness of air pollution is due to the inevitable circumstances. I only think about it, but I live without taking it seriously. In fact, the air that is inhaled into our bodies is contaminated with various viruses, pathogens and fine dust, and the quality of the air we breathe has a great impact on human health and lifespan. Especially for modern people who spend most of their daily lives indoors, the importance of air quality to the room cannot be overemphasized.

In general, the air conditioning unit (Air Handle Unit) for the air conditioning in the building to supply the air through the filter and filter, but the air duct that is in contact with the longest period of time as the air moves actually contaminates the air coming into the room It is most closely related to this, and if contaminants and fine dust accumulate in the air duct, the air will come into contact with the inside of the duct as it passes the pollutants.

In buildings, air ducts are used as air passages for reaching air to a designated location. Depending on the role, air ducts supply air from the air handle unit to the room. Air duct to return air from the air back to the air conditioner, Out Air Duct to bring fresh air to the air conditioner, and Exhaust Air Duct to draw air from the outside to the outside ) All of these air ducts are centered around the machine room of the building where the air conditioner is installed, in the pit where the building's facilities pass through, mainly under the ceiling, under the floor plate, or to connect each floor. Also, in general, the volume of the body occupied by the air duct is larger than the volume of all other equipment (electric, telecommunication, firefighting, water and sewage, etc.) that enters the building. As water and sewage and fire protection lines pass around the air ducts, the air ducts that eventually end up buried in the various facility lines inside the building, though they provide a check in between for duct cleaning, Before leaving a complete refurbishment, it is very difficult to clean the contaminants inside the once installed duct.

In Korea, the Public Health Control Act and the Indoor Air Quality Control Act, such as multi-use facilities, are equipped with ventilation facilities for buildings over a certain size, and measure and report the air quality to prevent air from entering the room. Therefore, keeping the inside of the duct clean is very important. However, as described above, there is no clear way to clean the inside of the duct, and some duct cleaners put robots for cleaning inside the duct and use a remote control device to clean them, but the reliability of the work is not so high.

The air duct of a building has a long service life and is difficult to maintain due to the characteristics of the building equipment.However, it is easy to accumulate dirt or oil on the surface of the duct due to moisture and suspended substances contained in the air passing through the duct. Various harmful pathogens and molds grow, and these harmful substances come into contact with the air that has passed inside the duct to supply the indoors, which contaminates the air, and eventually the air contaminated with pathogens harmful to the human body enters the room. there was.

The present invention lowers the surface friction coefficient of the inner surface of the duct so that dust or grease does not accumulate in the air duct, so that harmful substances such as dust and various dusts do not stick to each other and slip, and the function of decomposing oxide dust by itself is performed inside the duct. Its purpose is to provide ducts with the ability to prevent contamination by themselves within the ducts.

In order to achieve the above object, the present invention, the rust preventive coating to prevent corrosion of the duct on the inner surface of the duct, but the effect of lowering the surface tension of the paint is strong and significantly improves the wettability of the material and the crater on the surface of the paint By adding a slip agent (SLIP AID) which prevents the phenomenon and lowers the surface friction coefficient and gives the surface gloss and consequently increases the slipperiness, the friction coefficient of the inner surface of the duct is significantly lowered and becomes very slippery. It flows from the handle unit) and flows through the inside of the duct, and the flow is not only high speed ducts (15m / sec or more) but also low speed ducts (15m / sec or less). Dust grease and the like do not stick to the duct's inner surface and slide very easily, allowing them to fly in the wind to maintain a clean duct interior.

In addition, titanium dioxide (TiO ₂ ), which decomposes pollutants such as oxides and dusts, is added to the rust prevention layer on the inner surface of the duct. In general, photocatalysts are activated by UV light, Therefore, by using oxygen catalyst which is activated by oxygen or moisture in the air without light, the hydroxy radical (OH) having high oxidative decomposition power of titanium oxide is ducted by oxygen molecules or moisture in the air inside the duct. It activates on the inner surface and oxidizes and decomposes organic substances such as dust, oil, and bacteria that adhere to the surface of the duct so that it is no longer stuck to the inner surface of the duct and thus has a function of keeping the inside of the duct clean. .

 As described above, according to the duct of the anti-pollution function according to the present invention, when the existing general air duct is looked into the interior after using for a certain period of time, it is covered with various dust, grease and contaminants, unlike various pathogens therein. In addition, the inside of the duct is significantly prevented from being contaminated, and fresher and safer air is introduced into the room, providing a more pleasant indoor environment for people living in the room. By keeping the inside of the air duct as clean as possible, it has the effect of reducing the cost of building maintenance.

1 is a picture of the interior contaminated by the long-term use of the existing duct in use
2 is a cross-sectional view showing the construction and operation of the inner surface of the antifouling function duct
3 Schematic diagram in which air reaches the room
Figure 4 Comparison table of the coefficient of friction changed through the application of slip agent

Hereinafter, a preferred embodiment of the antifouling function duct according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a picture of the inside of the air duct being used in general. In general, inside the duct, water, dust, various contaminants, It is easy to be contaminated by oil. This is a situation where the air duct's service life can only be as long as the building's life, unless the entire renovation of the building is complete, so the problem of contamination is more serious than any other part of the building. In general, to clean the air duct, remove the part of the ceiling and avoid various pipes such as electricity, fire fighting, communication, and hygiene inside the ceiling to find the duct inspection door and put the robot cleaner into the duct to check the internal condition. While cleaning with a rotating brush, the duct shape becomes smaller and smaller (Reducing) to meet the static pressure inside the duct as the air is discharged in the middle, and the size of the duct changes. Since it rises and falls high and low to avoid beams or obstacles, it is almost impossible to clean not only the bottom of the duct but also the side wall inside the duct or the upper part of the duct by a robot cleaner.

FIG. 2 is a view showing the configuration and function of the inner surface 1-1 of the antifouling function duct 1 according to the present invention. The antirust coating 10 is applied to the surface 1-1 used inside the duct. To suppress corrosion, and at this time, the surface tension is lowered, which significantly reduces the surface friction coefficient, gives the surface gloss and strength, improves the wettability of the material, prevents the cratering of the coating film, and eventually increases the surface slipperiness. The slip agent 20 added is applied. In addition, the film on the surface of the duct is formed by using titanium dioxide (TiO ₂ ), which has a function of oxidizing and decomposing organic substances, but in general, titanium dioxide (TiO ₂ ) is a photocatalyst activated by light. In the duct, there is no light that can activate the photocatalyst, and an oxygen catalyst 30 that generates OH activators on the surface of the duct in response to oxygen molecules and moisture in the air without light is added to the rust-preventive coating 10. The coating film 40 is formed in the film. The duct manufactured in this way is blown by the wind (100) blowing from the inside of the duct, the dust or grease (200) does not adhere to the smooth surface on which the slip agent is applied, and the organic material (300), such as bacteria and mold, is oxidized and decomposed. Fly in the wind (100) is shown.

The air conditioning duct 1 is generally made of a material such as a galvanized steel sheet, a stainless steel sheet, an aluminum plate, a PVC plate, and an FRP plate, which are used as the material of the air duct.

A slip agent 20 and an oxygen catalyst 30 are applied to the air surface 1-1 to smoothly blow the wind 100 without dust or grease 200 remaining on the inner surface 1-1 of the air conditioning duct 1. Application takes place in the following 1 to 5 steps

Stage 1

In general, a polyurethane resin, an epoxy resin, or an cyclic resin is used as an anticorrosive coating for preventing corrosion of the duct plate (1). The paint is added in an appropriate amount according to the inner surface area of the duct (1) to be coated in the facility for roll coating.

Step 2

In order to smooth the duct inner surface 1-1 and to increase slippage so that dirt or grease 200 does not stick, the polyether-modified dimethylpolysiloxane-based or polymerized wax-based slip agent 20 is entirely applied. 0.05 to 0.3% by weight of the antirust coating (10) is added to the antirust coating.

Step 3

The acid catalyst 30 used to oxidize and decompose the organic material 300 on the inner surface 1-1 of the duct is nanoparticle powder in which titanium dioxide (Tio ₂ ) is activated by oxygen, moisture, or the like. 0.05% to 0.1% is added to the antirust paint.

4 steps

The slip agent 20 and the oxygen catalyst 30 is evenly mixed with the rust preventive paint 10, so that the slip agent 20 and the oxygen catalyst 30 is evenly dispersed.

5 steps

Use a roll coating machine to coat 2 to 3 microns (0.002 to 0.003 mm) thick and dry thoroughly through the drying line.

By the above steps, the duct plate 1 has an anti-fouling duct having slip and organic decomposition function on the inner surface 1-1.

3 is a system diagram in which air is reached indoors in a general building.

In general, in the air conditioner 2 installed in the machine room of the building, the air whose temperature and humidity are controlled is delivered to the room through the air duct 1 and finally reaches the room through the air outlet 3. In this case, if the flow of air inside the duct 100 is 15 m or more, it is classified as a high speed duct, and if it is 15 m or less, it is classified as a low speed duct. If the inner surface of the duct (1-1) is very smooth and slippery, and the organic material 300 is oxidized and decomposed by itself on the duct surface (1-1), dust or grease (200) residues, etc. Due to the wind (100) inside the fly without sticking to the surface (1-1) to maintain a clean duct inside.

Figure 4 is a table comparing the coefficient of friction before and after applying the slip agent according to the type of slip agent on the inner surface of each duct material.

1. Air conditioning duct of building
1-1. Inner surface of air conditioning duct
2. Air conditioner 3. Air discharge port (diffuser)
10. Antirust coating
20. Slip
30. Oxygen Catalyst
40. Coating film with slip agent and oxygen catalyst together with antirust coating
100. Wind blowing inside the duct
200. Dirt or grease
300. Organic substances such as bacterial fungi

Claims (2)

Anti-fouling, characterized in that the inner surface (2) of the air conditioning duct (1) to increase the slip properties so that dust or grease (200) does not adhere, and decomposes the organic material (300) such as bacterial mold by itself. Duct manufacturing method.
The polyether modified dimethylpolysiloxane-based or polymerized wax-based slip agent 20 is used to increase slip property, and in order to decompose the organic material 300 by itself, oxygen and moisture are discretized. Method for producing an antifouling duct, characterized in that using an oxygen catalyst (30) to activate titanium (Tio ₂ ).

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