KR20130081330A - Photocatalyst zeolite air conditionor filter - Google Patents

Abstract

PURPOSE: A photocatalyst zeolite air-conditioner filter is provided to remove a harmful gas and fine particles from the indoor air. CONSTITUTION: A photocatalyst zeolite air-conditioner filter comprises a pretreatment filter (11), a photocatalyst zeolite filter (10), and a UV lamp (20). The pretreatment filter is located behind an air-conditioner air inlet unit, and filters relatively large particles from the inhaled air. The photocatalyst zeolite filter is located behind the pretreatment filter; and adsorbs and dissolves harmful substances in the air at the same time by comprising zeolite and a photocatalyst. The UV lamp is located on the periphery of the photocatalyst zeolite filter; recycles zeolite by irradiating the photocatalyst zeolite filter with an ultraviolet ray; and enables the photocatalyst zeolite filter to continuously perform deodorization and sterilization.

Description

Photocatalyst Zeolite Air Conditioner Filter

The present invention relates to a photocatalyst zeolite air conditioner filter that can efficiently adsorb harmful gases and fine particles in the room. More specifically, the air conditioner suctions air by equipping the air conditioner filter with a zeolite having a photocatalyst having excellent adsorption performance. The photocatalyst zeolite enables adsorption, deodorization and sterilization of harmful gases and microparticles by allowing zeolites to adsorb harmful gases and microparticles, and simultaneously allow photocatalysts and ultraviolet rays to decompose harmful gases and regenerate them. Relates to an air conditioner filter.

Volatile Organic Compounds (VOCs) cause photochemical reactions with chemicals such as nitrogen oxides (NOx) in the air to increase ozone (O3) concentrations on the surface, as well as serious adverse effects on humans due to their toxicity. It is a harmful substance that causes environmental problems such as pollution and odor.

Currently used VOC removal technology can be divided into adsorption method using activated carbon or zeolite, recovery technology such as condensation method, absorption method and membrane separation method, and treatment technology such as thermal incineration method, catalytic incineration method, UV oxidation method and biofilm method.

Adsorption method is a method of adsorption and removal of VOC using activated carbon or zeolite with good adsorption efficiency, but the initial investment cost is small, but the filter has to be replaced frequently, so the replacement cost is high, the management cost is high, and it is difficult to process a large volume of VOC. . The thermal incineration method has a high initial installation cost, has a disadvantage of requiring a large space for installing the device, and has a serious problem of generating secondary pollutants such as NOx and CO generated during incineration.

As a method of mixing the adsorption method and the thermal incineration method, a rotary rotor type adsorption heat incinerator using a ceramic rotor is used. This method uses cylindrical ceramic monolithic honeycomb. The cylinder is divided into 1/2 or 1/3, and the cylinder is adsorbed on one side and rotated when the adsorption is completed. have. This method has a relatively low operating cost but has a limitation in that the filter production cost is high and the disadvantages of the thermal incineration method are not overcome.

Catalytic incineration has the advantage of lower initial investment cost, but it is not suitable for large-capacity processing and has a disadvantage that efficiency is gradually reduced since no regeneration time is given. Due to these shortcomings, the adsorption / incineration method has been in the spotlight recently, but the activated carbon adsorption filter used in the past is difficult to regenerate, is ignitable, and the moisture is adsorbed first so that the pores are blocked. There was a disadvantage that selective adsorption was not possible by adjusting the size.

In addition, conventionally, activated carbon was coated on the base of PE, PVA, urethane, etc., and used as a filter for an air purifier. The air purification was performed. However, these filters are not high in adsorption power and are limited in use in a humid environment, and can selectively adsorb. There was a problem that the base is decomposed by the photocatalyst.

In addition, the pollution of the air becomes more severe as the industry develops, but it requires an improved filter accordingly, and the effect of sterilization using photocatalyst or ultraviolet light should be increased only when the contaminated air is contacted with as many filters as possible. It is possible to maximize the conventional air purification device is a reality that the adsorption rate is lowered.

On the other hand, indoors such as houses and schools have become a problem for sick houses, sick schools, etc., which cause residents to suffer from VOCs such as toluene and xylene emitted from building materials and furniture, so it is very important to reduce the concentration of these VOCs. .

In addition, although there are adsorption building materials or photocatalysts among the existing measures for removing indoor VOCs, adsorption building materials are difficult to replace, product types are limited, and there is a problem of high cost. Inadequate, problems such as reaction efficiency, stability of the intermediate product, etc. remained. Therefore, the development of low cost, easy and reliable indoor VOC countermeasures is required only when needed.

The present invention was created to improve the above problems,

When the air conditioner absorbs air, it provides a photocatalyst zeolite air conditioner filter that effectively removes harmful gases and fine particles in the indoor air by allowing air to pass through the zeolite air conditioner filter combined with a photocatalyst having excellent adsorption performance. There is a purpose.

It is another object of the present invention to provide a photocatalyst zeolite air conditioner filter that allows zeolite to adsorb harmful substances and at the same time regenerate zeolite by allowing photocatalyst and ultraviolet rays to decompose harmful substances, thereby enabling continuous adsorption, deodorization and sterilization of hazardous substances. have.

A wide-width zeolite air conditioner filter according to an embodiment of the present invention for achieving the above object,

A pretreatment filter 11 located behind the air conditioner air suction part 31 and configured to filter out relatively large particles of air sucked through the air suction part;

One or more photocatalyst zeolite filters 10 positioned behind the pretreatment filter 11 to adsorb and decompose harmful substances in the air, including zeolites and photocatalysts;

Located in the periphery of the photocatalyst zeolite filter 10, the photocatalyst zeolite filter 10 is irradiated with ultraviolet rays to decompose harmful substances to regenerate the zeolite, and includes a plurality of UV lamps 20 that enable continuous deodorization and sterilization. It is characterized by the configuration.

As described above, the present invention provides a photocatalyst zeolite filter and a UV lamp so that the adsorption and decomposition of harmful substances can occur at the same time, thereby regenerating the zeolite. It solves the difficulties and can quickly reduce the concentration of harmful gases such as VOCs in the indoor air, improves the indoor air quality by adsorbing microparticles and enables effective deodorization and sterilization. It provides the effect of making it possible.

1 is a view showing the configuration of a photocatalyst zeolite air conditioner filter according to an embodiment of the present invention.
2 is a view showing a state in which the photocatalyst zeolite air conditioner filter is applied to an air conditioner according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the photocatalyst zeolite air conditioner filter of the present invention.

1 is a view showing the configuration of a photocatalyst zeolite air conditioner filter according to an embodiment of the present invention.

2 is a view showing a state in which the photocatalyst zeolite air conditioner filter is applied to an air conditioner according to an embodiment of the present invention.

As shown in Figure 1, the photocatalyst zeolite air conditioner filter according to an embodiment of the present invention;

 A pretreatment filter 11 located behind the air conditioner air suction part 31 and configured to filter out relatively large particles of air sucked through the air suction part;

One or more photocatalyst zeolite filters 10 positioned behind the pretreatment filter 11 to adsorb and decompose harmful substances in the air, including zeolites and photocatalysts;

Located in the periphery of the photocatalyst zeolite filter 10, the photocatalyst zeolite filter 10 is irradiated with ultraviolet rays to decompose harmful substances to regenerate the zeolite, and includes a plurality of UV lamps 20 that enable continuous deodorization and sterilization. It is characterized by the configuration.

In addition, it may be easily configured to include another type of filter having a particular effect in addition to the filters.

As described above, by providing the zeolite filter 10 is coupled to the excellent photocatalyst excellent adsorption performance, it is possible to increase the adsorption power and to simultaneously adsorb and decompose harmful substances.

In addition, the hydrophobic composition of the UV lamp 20 and the photocatalyst zeolite filter 10 provides a high sterilization and deodorization effect by increasing the probability that the contaminated air contacts with as many filters as possible.

Referring to the operating principle of the present invention, as shown in Figure 2 when the contaminated air is sucked through the air conditioner air inlet 31 passes through the pre-treatment filter 11 behind the air conditioner air inlet 31 .

At this time, dust having a relatively large particle size is filtered out of the pretreatment filter 11.

The air passing through the pretreatment filter 11 passes through the photocatalyst zeolite filter 10 provided behind the pretreatment filter 11.

At this time, the UV lamp 20 is irradiated with ultraviolet light toward the photocatalyst zeolite filter 10 and the air passing through the filter.

When air flows into the photocatalyst zeolite filter 10 and the UV lamp 20, the zeolite filter 10 combined with a high performance photocatalyst adsorbs and decomposes harmful gases and fine particles of air and the UV lamp 20 is The air is sterilized and deodorized by the ultraviolet rays to be irradiated.

The air passing through the photocatalyst zeolite filter 10 and the UV lamp 20 enters the air conditioner main body 30 to exchange heat, and then goes out of the air conditioner again.

In addition, the photocatalyst in the photocatalyst zeolite filter 10 may preferably use titanium dioxide (TiO ₂ ).

In addition, the photocatalyst zeolite filter 10 refers to a structure having a zeolite combined with a photocatalyst, and those skilled in the art to which the present invention pertains have their own special purpose and do not change the essential characteristics of the photocatalyst zeolite filter mentioned above. Of course it can be prepared in a variety of ways.

While the present invention has been described with reference to one embodiment shown in the drawings, this is illustrative and the scope of the invention is indicated by the claims that follow.

10 pretreatment filter 11 photocatalyst zeolite filter
20: UV lamp 21: UV lamp
30: air conditioner 31: air conditioner air intake

Claims (2)

A pretreatment filter 11 located behind the air conditioner air suction part 31 and configured to filter out relatively large particles of air sucked through the air suction part;
One or more photocatalyst zeolite filters 10 positioned behind the pretreatment filter 11 to simultaneously adsorb and decompose harmful substances in the air, including zeolite and photocatalyst;
Located in the periphery of the photocatalyst zeolite filter 10, the photocatalyst zeolite filter 10 is irradiated with ultraviolet rays to decompose harmful substances to regenerate the zeolite, and includes a plurality of UV lamps 20 that enable continuous deodorization and sterilization. Photocatalytic zeolite air conditioner filter, characterized in that The photocatalytic zeolite air conditioner filter according to claim 1, wherein at least one UV lamp is provided to irradiate ultraviolet rays to the entire photocatalytic zeolite air conditioner filter.

Images