KR200451416Y1 - Air-conditioner having function sterilization and deodorization - Google Patents

Abstract

The present invention relates to an air conditioner having a sterilization deodorizing function. Especially, after polluted air passes through a UV-C lamp, it passes through a photocatalyst filter to provide clean air that is harmless to the human body and is sterilized and deodorized to discharge purified air. It is designed to effectively sterilize and deodorize even pollutants suspended or stuck in the room.

Air Conditioner, Filter, UV-C Lamp, Photocatalyst Filter, Photocatalyst Lamp, Photocatalyst Coating Mesh, Non-Woven Filter

Description

Air-conditioner having function sterilization and deodorization

The present invention relates to an air conditioner having a sterilization deodorizing function. Especially, after polluted air passes through a UV-C lamp, it passes through a photocatalyst filter to provide clean air that is harmless to the human body and is sterilized and deodorized to discharge purified air. It is designed to effectively sterilize and deodorize even pollutants suspended or stuck in the room.

In general, various air conditioners are installed in a machine room for indoor air conditioning in each room.

An air conditioner has a function of controlling air in accordance with necessary conditions in the room, such as supplying cooling or heating to the interior of a building, adjusting humidity, and adding insect repellent.

An air duct is installed in the air conditioner so as to distribute appropriately regulated air to each room, and a filter is installed in the air duct. It is supplied.

After sucking the contaminated indoor air through the air duct filter of the air conditioner, about 30% is discharged to the outside, the outside air as much as the discharged indoor air is sucked and mixed and adjusted to an appropriate temperature through a heat exchange means. It removes contaminants through various filtering means and supplies them to the room.

If the air conditioner is used for a long time, foreign substances are filtered out of the filter, and the filtration function of the air is reduced, and various harmful microorganisms multiply in the filter to contaminate the air passing through the duct of the air conditioner.

Accordingly, an object of the present invention is to provide an air conditioner having a sterilization deodorization function for sterilizing and deodorizing air passing through a damper of an air conditioner.

A suction part having a fan installed to intake contaminated indoor air through a damper to achieve the above object; An exhaust part provided with a discharge damper for discharging about one third of the air introduced through the suction part to the outside; A mixing part that sucks external air through an upper suction damper and mixes the contaminated indoor air flowing from the exhaust part; A coil part for cooling or heating the air provided by the mixing part using a cooling coil and a heating coil, and then humidifying the air; A filter part for filtering air provided from the coil part; In the well-known air conditioner which consists of the discharge part which sucks the air purified by the said filter part and supplies it through a supply fan to a discharge damper, a nonwoven filter is installed in the said filter part, and a UV-C lamp is installed in the back of the said nonwoven filter. The present invention provides an air conditioner having a sterilizing deodorizing function, characterized in that the photocatalyst filter is installed at the rear of the UV-C lamp.

It provides an air conditioner having a sterilizing deodorizing function, characterized in that the photocatalyst lamp is installed in place of the photocatalyst filter.

Instead of the photocatalyst filter, a photocatalyst coated mesh of 100 mesh or less forms a wire made of stainless steel or titanium with a diameter of 0.1 to 5 mm in the form of a mesh to roughen the wire surface by colliding the wire with high-pressure air with sand or gold steel. Thereafter, the titanium alkoxide is coated on the wire surface to provide an air conditioner having a sterilizing deodorizing function, constituting a unit in which a plurality of layers of photocatalyst coated meshes heat-treated at a temperature of 800 ° C. or less are formed.

In addition, the rear surface of the photocatalyst filter is a glass fiber, carbon fiber, acrylic fiber, PE fiber, urethane foam is provided with an auxiliary filter having a hexahedral shape formed by selecting one of the air conditioner having a sterilization deodorizing function further comprises do.

In addition, instead of the photocatalyst filter, both surface material is formed by a nonwoven fabric filter, and between the both surface material provides a air conditioner having a sterilizing deodorizing function, characterized in that composed of a photocatalyst filter or a photocatalyst coated network as a core material.

The present invention thus provides a sterilization deodorization disinfection device which is used as a filtering means for an air conditioner having a UV-C lamp and a photocatalyst filter, so that contaminated indoor air is harmless to the human body and provided clean air that has been sterilized and deodorized. By discharging to the room with the sterilization deodorizing material to provide a sterilization deodorizing sterilization device and an air conditioner using the device to effectively handle the pollutants suspended or fixed in the room.

The UV-C lamp of the filter can significantly lower the turbidity of air than the conventional filter, so that the sterilization efficiency is increased. Also, if the photocatalyst is coated around the filter or the lamp, the UV-C lamp reacts with ultraviolet rays to sterilize, disinfect, deodorize and decompose organic matter. As far as possible, it is more effective by generating free radicals that are harmless to human body.

That is, the air conditioner of the present invention filters impurities in the air by using a method superior to the conventional filtering method, and accordingly, the sterilization effect is more effective than the conventional sterilization method.

In order to achieve the above object, the present invention provides a suction part (20) provided with a fan (22) for inhaling contaminated indoor air through a damper (21); An exhaust part 30 provided with a discharge damper 31 for discharging the 1/3 of air introduced through the suction part 20 to the outside; A mixing part 40 that sucks external air through the upper suction damper 41 and mixes with the contaminated indoor air introduced from the exhaust part 30; A coil part 50 for cooling or heating the air provided by the mixing part 40 using a cooling coil and a heating coil, and then humidifying the air; A filter part 60 for filtering air provided from the coil part 50; In the well-known air conditioner 10 consisting of; a discharge part 70 for sucking the air purified by the filter part 60 to supply to the discharge damper 71 through the supply fan 72,

The nonwoven filter 61 is installed in front of the filter part 60, the UV-C lamp 62 is installed at the rear portion of the nonwoven fabric filter 61, and the photocatalyst filter is disposed at the rear of the UV-C lamp 62. It provides an air conditioner having a sterilization deodorizing function, characterized in that the structure (63a) is installed.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention.

In addition, the present invention is not limited to the air conditioner with the sterilization deodorizing function of the present invention, for example, the use of the filter parts of the present invention for the purpose of purifying the air, such as other air purifiers are widely used.

As shown in Fig. 2, the non-woven fabric filter 61 includes a pre-filter primarily filtering out impurities in air (more than 85% by weight); An electrostatic precipitating filter 11 for secondary filtering at a higher efficiency (more than 90% colorimetric method) behind the filter; It uses a known non-woven fabric filter 10 consisting of a Bag Filter for widening the cross-sectional area of dust and impurities that are not collected and scattered behind the electrostatic precipitator more effectively.

In FIG. 2, the UV-C lamp 62 sterilizing the bacteria in the air purified by the filter part 60 increases the efficiency of the lamp and installs a photocatalyst filter 63a having an effect of deodorization and organic decomposition. It is to supply fresh air indoors.
Here, the UV-C lamp is divided into three grades of A, B, and C grades, such as UV-A, UV-B, and UV-C, according to the ultraviolet wavelength of a general UV lamp. The wavelength of 400 nm and UV-B is 280-320 nm, and the UV-C lamp used in the present invention has a wavelength of 100-280 nm, and has been selected as an optimal lamp for sterilizing harmful elements in the air.

Accordingly, one side of the coil part 50 that cools or heats the air provided by the mixing part 40 using a cooling coil and a heating coil and then sterilizes the defrost water generated in the coil part 50. UV-C lamp 62 is provided to provide.

As shown in FIGS. 2 to 4, when light energy of a predetermined magnitude or more emitted from the UV-C lamp 62 is irradiated to the photocatalyst P, electrons of a valence band are transferred to the conduction band. Transition produces electrons (e-) and holes (h-). Since these electrons and holes have very strong oxidizing and reducing power, they react with water vapor (H2O) or oxygen (O2) in the air to generate active oxygen such as OH radicals, H radicals, and superoxide ions (O2-). . And since these radicals have a strong binding force with other components, it destroys the binding of the odorous substance is deodorizing effect is made. That is, the OH radical breaks the bond of the organic substance causing the odor and is directly bonded, so that the odor component is removed since the water vapor and carbon dioxide are finally left.

In addition, OH radicals have a strong oxidizing power to sterilize microorganisms, so they are sterilized. That is, allergens and microorganisms are mainly composed of proteins in which amino acids are polypeptide-bound, and OH radicals denature proteins by breaking down the polypeptide bonds of these amino acids.

Therefore, allergens are decomposed, microorganisms are sterilized, and electrons or holes are directly bonded to the organic material to react to break the organic matter, and eventually, water vapor and carbon dioxide are left to deodorize.

Eventually, the use of a photocatalyst enables sterilization, deodorization and allergen decomposition in the same principle as described above.

2 to 3, the substrate of the photocatalyst filter 63a in the photocatalyst filter 63a or the photocatalyst lamp 63b is made of polyurethane foam in which a titanium oxide photocatalyst is mixed with an organic paint and coated on the substrate. It is made of titanium oxide (TiO2) molded body and can be used for regeneration by the self-cleaning action. When the light energy of bandgap energy or more is irradiated by ultraviolet light generated from the photocatalyst lamp 63b, the light is excited. Hydroxy radicals and anionic oxygen are produced and the pollutants are decomposed by the oxidative power of the hydroxy radicals.

The electrons (e-) and holes (h +) generated by the ultraviolet light hitting the titanium oxide of the photocatalyst filter 63a react with O2 and H2O in the air, respectively, and the anion oxygen (O2-) and hydroxyl radicals 2 Produces free radicals of species. In particular, since radicals have high oxidation and reduction potentials, they are excellent for purifying NOx, SOx, volatile organic compounds (VOCs) and various odors, and can completely remove hard-degradable pollutants and environmental substances. It has the ability to oxidize all target substances, such as sterilizing more than 99% of various pathogens and bacteria such as staphylococci and tuberculosis bacteria.

In addition, when light is irradiated, one of the two oxygen constituents of titanium oxide reacts with H2O in the air to form a hydrophilic group (-OH) having very high hydrophilicity. Attached contaminants have self-cleaning that is easily cleaned.

In addition, as shown in FIGS. 4 and 6, instead of the photocatalyst filter 63a, the photocatalyst coated mesh 63c of 100 mesh or less forms a wire (a) made of stainless steel or titanium having a diameter of 0.1 to 5 mm in a mesh form. The surface of the wire was crashed with high-pressure air with sand or gold steel to roughen the surface of the wire, and the surface of the wire was coated with titanium alkoxide, which is a coating agent (b), to heat the film at a temperature of 800 ° C. or lower. In the air conditioner having a sterilization deodorizing function constituting the unit installed in the photocatalyst coated net body 63c in the form of a mesh, the diameter of the wire is 0.1 ~ 5mm, the material is stainless steel, titanium, aluminum, etc. It is a metal material, and the surface of the wire is sanded with gold steel, etc., or it is corroded by chemicals such as acid, so that the surface of the wire is roughly treated. Improve the adhesion and, it can be increased the surface area of the photocatalytic coating.

The photocatalyst coated mesh 63c is twisted to form a reticulated wire to roughen the surface of the wire to maintain a large surface area, and then the titanium alkoxide is diluted with a solvent to be coated and heat-treated to a temperature of 800 ° C. or lower to provide a wire to the photocatalyst. The photocatalyst coated mesh 63c firmly attached to the surface is smoothly irradiated with ultraviolet rays of the UV-C lamp 62 installed in front of the wire between the wire and the wire of the reticulated mesh, so that the UV-C lamp 62 is relatively far. Even if located in the photocatalyst, ultraviolet rays can reach the photocatalyst, moisture in the air containing contaminants can easily pass, thereby reducing the pressure loss, and the surface area is much larger than that of the photocatalyst coated with polyurethane foam. The pressure loss is so small that the decomposition reaction efficiency is high and the treatment capacity can be increased in treating contaminated air. have.

In addition, as shown in FIG. 7, the hexahedral auxiliary filter 64 formed by selecting one of glass fiber, carbon fiber, acrylic fiber, PE fiber, and urethane foam is formed on the rear of the photocatalyst filter 63a. Provide an air conditioner with deodorization function.

That is, a large space is generated in the UV-C lamp 62 installed at the rear of the nonwoven fabric filter 61. That is, the nonwoven filter 61 is a compact micro space assembly, but the UV-C lamp 62 is composed of only a lamp. As a space is generated between the lamps, resonance occurs in the flow of air, leading to a rapid flow of air, and thus, impurities or pre-treatment of the nonwoven filter 61 may fail to be removed or collected. In order to completely remove the fine impurities in the air by further comprising an auxiliary filter 64 at the rear end of the filter part 60.

8 and 9, instead of the photocatalyst filter 63a, both surface members are formed of the nonwoven fabric filter 61, and the photocatalyst filter 63a or the photocatalyst coated net body 63c is formed as a core material between the two surface members. It is possible to provide an air conditioner having a sterilization deodorizing function configured.

1 is a view illustrating the air flow of the air conditioner with a sterilization deodorizing function according to the present invention.

Figure 2 is a perspective view illustrating a nonwoven filter-UV sterilization lamp-photocatalyst filter in the filter part of the air conditioner according to the present invention of Figure 1;

Figure 3 is a perspective view illustrating a nonwoven filter-UV sterilization lamp-photocatalyst lamp in another filter part of the air conditioner according to the present invention.

Figure 4 is a perspective view illustrating a nonwoven filter-UV sterilization lamp-photocatalyst coating net in another filter part of the air conditioner according to the present invention.

5 is an enlarged perspective view of the photocatalyst coated net of the filter part according to the present invention of FIG.

Figure 6 is an enlarged view of the photocatalyst coated net "A" site according to the present invention of Figure 5;

7 is a perspective view illustrating a nonwoven filter-UV sterilization lamp-photocatalyst filter-auxiliary filter in the filter part of the air conditioner according to the present invention of FIG. 2.

FIG. 8 is an explanatory view of a nonwoven fabric filter-photocatalyst coated mesh-nonwoven fabric filter assembly in place of the photocatalyst filter of FIG.

FIG. 9 is an explanatory view in which a core, which is a photocatalyst coated mesh, is assembled inside a nonwoven filter as a surface material of both sides according to the present invention of FIG. 8;

<Description of the symbols for the main parts of the drawings>

Air conditioner 10 Suction part 20 Damper 21 Fan 22 Exhaust part 30 Exhaust damper 31 Mixing part 40 Suction damper 41 Coil part 50 Filter part 60 Nonwoven filter 61 UV-C lamp 62 Photocatalyst filter 63a Photocatalyst lamp 63b Photocatalyst coating Mesh 63c Auxiliary filter 64 Discharge part 70 Discharge Damper 71 Supply Fan 72

Claims (5)

delete delete A suction part having a fan installed to suck contaminated indoor air through a damper; An exhaust part provided with a discharge damper for discharging the 1/3 of air introduced through the suction part to the outside; A mixing part that sucks external air through an upper suction damper and mixes the contaminated indoor air flowing from the exhaust part; A coil part for cooling or heating the air provided by the mixing part using a cooling coil and a heating coil, and then humidifying the air; A filter part for filtering air provided from the coil part and installed in a nonwoven fabric filter-UV-C lamp-photocatalyst coated mesh; In a known air conditioner composed of a discharge part for sucking the air purified by the filter part to supply the discharge damper through a supply fan, The photocatalyst coated mesh forms a wire made of stainless steel or titanium with a diameter of 0.1 to 5 mm in the form of a mesh, and the wire is collided with high-pressure air with sand or gold steel to roughen the wire surface and then coated with titanium alkoxide. An air conditioner having a sterilization deodorizing function, comprising a unit body having a plurality of layers of a photocatalyst coated network heat-treated at a temperature of 800 ° C. or lower. delete delete

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