KR20010018552A - Air cleaner of Air conditioner - Google Patents

Abstract

PURPOSE: An air purifying system is provided to discharge purified air into an indoor space by adding a sterilizer to a hybrid catalyst. CONSTITUTION: An electric dust collector(10), a hybrid catalyst(20) and a sterilizing filter(30) are mounted on the intake port of an air conditioner sequentially to eliminate pollutants included in indoor air. The hybrid catalyst includes a pollutant adsorber having plural fine pores to adsorb pollutants passing through the electric dust collector, and a pollutant remover for eliminating the adsorbed pollutants sinking in the fine pores of the pollutant adsorber. The sterilizing filter is made as Cu fiber metal is spread in a mesh form and coated by nonwoven fabric(24). The sterilizing filter eliminates bacteria included in the air passing through the hybrid catalyst by using the sterilizing property of Cu.

Description

Air Cleaner of Air Conditioner {Air cleaner of Air conditioner}

The present invention relates to an air purifier of an air conditioner, and more particularly, the air of the air conditioner, which is installed in the indoor air intake port of the air conditioner and has an electric dust collection function, a deodorization function, and a sterilization function to discharge the purified air to the room. It relates to a purification device.

In general, an air conditioner is a device that maintains the room comfortably by lowering the temperature of indoor air by using latent heat of evaporation of a refrigerant according to a refrigeration cycle of a compressor, a condenser, an expansion valve, and an evaporator.

Briefly looking at the operation of the refrigeration cycle in the air conditioner as described above, the compressor compresses the refrigerant to increase the pressure of the refrigerant to the saturation pressure, the condenser liquefies the refrigerant by absorbing the heat of the high-pressure refrigerant using the air Let's do it. The refrigerant liquefied as described above lowers the pressure by the throttling action of the expansion valve, and the refrigerant cools down the temperature of the indoor air by heat exchange by absorbing the heat of the indoor air while evaporating from the evaporator. After the above operation is performed, the room is kept comfortable by discharging air having a lower temperature to the room.

1A and 1B are diagrams illustrating an indoor unit of a general package type air conditioner. FIG. 1A is a front view and FIG. 1B is a side view.

As shown in the figure, a lower portion of the air conditioner main body 100 is formed with a suction port 110 for sucking the indoor air into the system, the upper portion of the air conditioner main body 100, the cold air heat exchanged inside the system The discharge port 120 for discharging the gas is formed. In addition, a blower fan 130 is installed at the inner center of the air conditioner main body 100 to suck indoor air through the suction port 110 and discharge heat exchanged cold air into the room through the discharge port 120. Evaporator 150 is mounted to heat the indoor air sucked through the inlet 110 to cool.

Meanwhile, reference numeral 140 of FIG. 1A denotes an operation panel 140 mounted on the front of the air conditioner main body 100 to allow a user to input a signal for controlling driving of the air conditioner. The air purifier is mounted on the suction port 110 to remove foreign substances contained in the indoor air.

In the air conditioner having the above configuration, when a user inputs a driving signal through the operation panel 140, the blower fan 130 mounted inside the air conditioner main body 100 is driven to operate the indoor air intake port 110. After the suction through the discharge port 12 is discharged back to the room. At this time, the sucked indoor air is discharged to the room after the temperature is lowered by the heat exchange operation in the evaporator 150 to maintain the room temperature comfortably.

While the above operation is performed, the air purifier 160 filters the foreign matter contained in the indoor air. The air filter collects dust of relatively large particles, and an electrostatic precipitator that collects fine particles of dust. Is done.

Therefore, when indoor air is sucked by the blower fan 130 during the operation of the air conditioner, dust having a relatively large particle is collected by an air filter installed in the suction port 110, and the fine dust particles passing through the air filter are collected in the electrostatic precipitator. Is collected by.

2 is a perspective view showing an electrostatic precipitator mounted on an air conditioner according to the prior art.

Referring to FIG. 2, the electrostatic precipitator 260 to which the prior art is applied includes a charging unit 261 for ionizing dust particles contained in indoor air to be sucked, and collecting dust particles ionized by the charging unit 261. The dust collector 262 is configured.

In this case, the charged portion 261 includes a plate-shaped ground electrode 263 and a power electrode 264 to which a high voltage of (+) or (-) is applied, so that the plurality of ground electrodes 263 are spaced a predetermined distance apart. A power electrode 264 made of tungsten wire is provided between the ground electrodes 263 in parallel.

In the electrostatic precipitator 260 having the above configuration, when a high voltage of (+) or (-) is applied to the power electrode 264, an electric field is formed between the ground electrode 263 and the power electrode 264. The free electrons accelerated by the electric field collide with the fine dust particles, which are heavy molecules contained in the sucked indoor air, to charge the dust particles. The charged dust particles are collected by the dust collector 262 at the rear end.

However, since it is impossible to remove all contaminants from the electrostatic precipitator 260, a filter having a sterilization and deodorization function to completely remove the contaminants that have passed through the electrostatic precipitator 260 is formed on the back of the electrostatic precipitator 260. Is mounted on.

In the prior art, the filter was formed by forming a mesh structure with aluminum wire and then coating titanium oxide thereon. Since the titanium oxide has a function of a photocatalyst, it decomposes and removes contaminants passed through the electrostatic precipitator 260.

However, the above technique is difficult to manufacture due to the difficulty of coating titanium oxide on the aluminum of the mesh structure, and since the titanium oxide is a photocatalyst, the function of oxidatively decomposing and removing contaminants in the absence of light is accurately performed. The problem arises. In addition, the titanium oxide has a problem that the adsorption power of the pollutant is low, the actual pollutant removal ability is low.

In order to solve the problems as described above, a technique using a hybrid catalyst in which special activated carbon and zinc are added to titanium oxide of a photocatalyst has been proposed. In this case, the special activated carbon refers to a functional deodorizing agent to enhance the deodorizing ability of ammonia on the activated carbon, the hybrid catalyst is completed by processing the titanium oxide and zinc in a powder state in a myriad of pores of the special activated carbon and then supported by using a solvent do.

In the absence of light, the hybrid catalyst adsorbs and removes contaminants by special activated carbon, and sterilizes by reaction of zinc. In addition, in the presence of light, in addition to the above operation, deodorization and sterilization by a photocatalyst are performed.

However, even in such a case, it has the advantage of operating irrespective of light, but the sterilization ability is lowered compared to the deodorizing ability, and especially, in the absence of light, the sterilization ability is rapidly reduced, so that the bacteria contained in the indoor air are not completely removed. There arises a problem that adversely affects the user's health.

The present invention has been made in order to solve the problems of the prior art as described above, the object is to further provide a sterilization means in the hybrid catalyst to improve the dust collection function, deodorization function and sterilization function can be discharged to the room air It is to provide an air purifier of an air conditioner.

Figure 1a is a front view showing the indoor unit of a typical packaged air conditioner

Figure 1b is a side view showing the indoor unit of a typical packaged air conditioner

2 is a perspective view showing an electrostatic precipitator

3 is a perspective view showing an air purifier of an air conditioner according to an embodiment of the present invention;

Explanation of symbols on the main parts of the drawings

10: electrostatic precipitator 11: collecting part

12: coupling groove 20: hybrid catalyst

21: filter 22: frame

23: fastener 24: nonwoven fabric

25 activated carbon 26 titanium oxide

27: zinc 28: copper fiber metal

30: sterilization filter

According to the present invention for achieving the above object, in the air intake device of the air conditioner to remove contaminants contained in the indoor air by the electrostatic precipitator, hybrid catalyst, sterilization filter is sequentially installed in the inlet of the air conditioner,

The hybrid catalyst has a contaminant adsorption means for adsorbing contaminants passing through the electrostatic precipitator with a plurality of micropores formed therein, and the contaminants supported by the micropores of the contaminant adsorption means for oxidative decomposition and removal of adsorbed contaminants. Material removal means; The sterilization filter is made by spreading a copper fiber metal (Cu fiber metal) in the form of a mesh and coating the front and back surfaces with a nonwoven fabric to remove bacteria contained in the air passing through the hybrid catalyst by using a sterilization function of copper (Cu). It provides an air purifier of the air conditioner, characterized in that.

At this time, according to an additional feature of the present invention, the contaminant adsorption means is made of activated carbon coated on a nonwoven fabric, and the contaminant removal means is oxidized to decompose contaminants when there is a light source supported on micropores of activated carbon. It is preferable that it consists of titanium oxide which has a function of a photocatalyst. In addition, it is preferable that the micropores of the activated carbon further carry a small amount of zinc that performs sterilization when there is no light source.

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

3 is a perspective view showing an air purifier of an air conditioner according to an embodiment of the present invention.

Referring to FIG. 3, the air purifier of the air conditioner includes an electrostatic precipitator 10, a hybrid catalyst 20, and a sterilization filter 30 sequentially disposed at an intake port (not shown).

The electrostatic precipitator 10 has a collecting unit 11 formed at the center thereof, and a plurality of coupling grooves 12 for fixing the hybrid catalyst 20 are formed at the edge thereof.

In addition, the hybrid catalyst 20 has a filter portion 21 formed at the center thereof, and one-to-one coupling with the coupling groove 12 of the electrostatic precipitator 10 at a predetermined position of the frame 22 surrounding the edge thereof. A plurality of coupling spheres 23 are formed. In this case, the filter unit 21 coats the activated carbon 25 having micropores formed on the nonwoven fabric 24, and then, titanium oxide 26 and zinc 27, which act as a photocatalyst on the micropores of the activated carbon 25, are formed. ) Was formed by supporting.

In addition, the sterilization filter 30 was formed by spreading the copper fiber metal 28 in the form of a mesh and then coating the front and rear surfaces with a nonwoven fabric. The reason for coating using the nonwoven fabric is to prevent the copper fiber metal 30 from being oxidized and brittle.

In general, fiber metal is a metal that is melted and processed into a fibrous form. When the molten metal is rotated at high speed, the fiber metal is formed into a fibrous form. In general, copper (Cu) is known to have a strong sterilization ability by oxidizing when exposed to air.

As a result, the present invention is to add a sterilization filter using copper to the hybrid catalyst according to the prior art to increase the sterilization capacity with or without light.

Referring to the operation of the air purifier according to the present invention having the configuration as described above are as follows.

When the contaminants that have passed through the collecting unit 11 of the electrostatic precipitator 10 are adsorbed to the activated carbon 25 of the hybrid catalyst 20, when there is light, the contaminants adsorbed by the activated carbon 25 are titanium oxide. Oxidative decomposition and deodorization and sterilization are carried out by (26).

In the present invention, by adsorbing zinc 27, which operates only when there is light, in the numerous pores of activated carbon 25, even if there is no light, adsorption of contaminants by activated carbon 25 even when there is no light Deodorization was performed and sterilization was performed by zinc (27).

Thereafter, the sterilization filter 30 completely removes the bacteria remaining in the air passing through the hybrid catalyst 20 through the copper fiber metal 28. At this time, by increasing the surface area of the copper fiber metal 28 it can further increase the sterilization effect.

While the invention has been shown and described with respect to particular embodiments, those skilled in the art will recognize that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the appended claims. Anyone can easily know.

As described above, the air purifier of the air conditioner to which the present invention is applied has an effect of improving sterilization ability by adding copper fiber metal to a hybrid catalyst containing activated carbon, zinc, and titanium oxide.

Therefore, by completely removing the bacteria that may be included in the air discharged into the room during the operation of the air conditioner can prevent the bacteria from adversely affecting the user's health, there is an effect that can maintain the room more comfortably.

Claims (3)

In the air purifier of the air conditioner is equipped with an electrostatic precipitator, a hybrid catalyst, a sterilization filter in order to remove contaminants contained in the indoor air in the inlet of the air conditioner, The hybrid catalyst has a contaminant adsorption means for adsorbing contaminants passing through the electrostatic precipitator with a plurality of micropores formed therein, and the contaminants supported by the micropores of the contaminant adsorption means for oxidative decomposition and removal of adsorbed contaminants. Material removal means; The sterilization filter is made by spreading a copper fiber metal (Cu fiber metal) in the form of a mesh and coating the front and back surfaces with a nonwoven fabric to remove bacteria contained in the air passing through the hybrid catalyst by using a sterilization function of copper (Cu). Air purifier of the air conditioner, characterized in that. The method of claim 1, The contaminant adsorption means is made of activated carbon coated on a nonwoven fabric, and the contaminant removal means is made of titanium oxide having a function of a photocatalyst that oxidizes contaminants when there is a light source supported on micropores of the activated carbon. Air purifier of air conditioner. The method of claim 2, The air purifier of the air conditioner, characterized in that the micropores of the activated carbon is supported with a trace amount of zinc to perform a sterilization action.