KR20180094158A - air conditioner and Method for controlling the same - Google Patents

Abstract

The present invention relates to an air conditioner, and more particularly, to an air conditioner for deodorization and a method of controlling the same, capable of reducing power consumption and improving indoor air quality by completely deodorizing odor generated from indoor air. The air conditioner includes: a casing (102); a control unit (104) installed at one side of an outer surface of the casing (102); a suction part (110) installed at one side in the casing (102) and provided with a suction fan (108) for sucking the indoor air through a damper (106); a CO_2 sensor (112) installed at one side in the suction part (110) and electrically connected to the control unit (104) to sense an amount of CO_2 in the indoor air sucked in accordance with a control signal of the control unit (104); an exhaust part (116) installed at one side in the casing (102) to discharge a part of the indoor air introduced by the suction part (110) through a discharge damper (114); a mixing part (120) installed at one side in the casing (102) to mix the indoor air introduced by the exhaust part (116) with outdoor air sucked through a suction damper (118); a heat exchanger (122) installed at one side in the casing (102) to cool or warm the mixed air introduced through the mixing part (120) into an appropriate temperature; and a filter part (126) provided with a photocatalytic filter (124) for collecting the odor from the mixed air heat exchanged from the heat exchanger (122).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner for odor deodorization,

The present invention relates to an air conditioner, and more particularly, to an air conditioner for odor deodorization and a control method thereof, which can reduce power consumption and reliably remove odors generated in the room air to improve the air quality of the room will be.

Generally, the building has an air conditioner installed in the machine room for indoor air conditioning of each room.

The air conditioner sucks the contaminated room air, discharges the room air to about 30%, sucks and mixes the outside air as much as the discharged room air, adjusts the temperature to the proper temperature through the heat exchanging unit, And then supplied to the room.

1 shows a general air conditioner.

As shown in FIG. 1, a general air conditioner includes a suction part c equipped with a fan b for sucking indoor air contaminated through a damper a;

An exhaust part (e) provided with a discharge damper (d) for discharging a part of the air introduced through the suction part (c) to the outside;

A mixing part (g) for sucking outside air through a suction damper (f) and mixing with contaminated room air provided from the exhaust part (e);

A filter part (j) provided with a heat exchanger (h) for cooling or warming the mixing air provided in the mixing part (g) to an appropriate temperature and a filtering part (i);

And a discharge part (1) for sucking the mixed air passing through the filtering means (i) and supplying it to the room through a discharge damper (k).

Here, an activated carbon filter is mainly used as the filtering means (i) of the filter part (j).

In the case of the activated carbon filter, as the time elapses, the ability to collect odor is drastically lowered, and the collected pollutants cause a problem of odor.

In order to solve the above-mentioned problems, Japanese Patent Application No. 20-2004-0006409 filed on Mar. 09, 2004 (name of the invention: sterilizing deodorizing and disinfecting device for air conditioner and air conditioner equipped with this device) The ozone decomposition filter 30 uses an Mn 2 O 3 series as an oxidation reduction catalyst installed on one side of the main body 10, and the ozone decomposition filter 30 is installed in the main body 10. (50), (52), (53), and (54), which are provided at regular intervals in the main body (10) A filter 43 for filtering the air introduced into the filter chamber 41 and a filter 43 for filtering the filtered air are provided in the filter chamber 41. The filters 43, 42, 43, the air induction fan 51a in the inflow space 51 formed by the photocatalytic filter 41, An ozone generating lamp 52b and a photocatalyst lamp 52a provided in the space 52 are provided between the partition wall photocatalyst filters 42 and 43, Eojin inflow space 53 air conditioner bactericidal deodorant disinfecting device consisting of a photocatalyst for the lamp (53a) installed in the "a.

However, since the conventional sterilizing deodorizing and disinfecting device for an air conditioner and the air conditioner equipped with the device are required to continuously turn on the ozone generating lamp and the photocatalyst lamp in order to remove the odor of indoor air, There is a problem that it is wasted.

The conventional sterilizing and deodorizing apparatus for sterilizing air conditioner and the photocatalytic filter of the air conditioner equipped with the sterilizing apparatus have a problem of deteriorating the odor collecting ability over time.

As a result, there has been a problem that the odor generated from the indoor air can not be reliably taken.

Accordingly, it is an object of the present invention to provide an air conditioner which is capable of reducing power consumption and reliably taking out odors generated in indoor air, And to provide a control method therefor.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided an air conditioner for odor-

A casing 102;

A control unit 104 installed at one side of the outer surface of the casing 102;

A suction part 110 installed on one side of the casing 102 and provided with a suction fan 108 for sucking room air through a damper 106;

A CO ₂ detection sensor 112 installed at one side of the suction part 110 and electrically connected to the control part 104 for sensing the amount of CO ₂ in the room air sucked in accordance with the control signal of the control part 104;

An exhaust part 116 installed at one side of the casing 102 to exhaust a part of indoor air introduced through the suction part 110 through a discharge damper 114;

A mixing part 120 installed at one side of the inside of the casing 102 to mix the room air introduced through the exhaust part 116 and the outside air sucked through the suction damper 118;

A heat exchanger 122 installed at one side of the casing 102 to cool or warm the mixed air introduced through the mixing part 120 to an appropriate temperature and a heat exchanger 122 to heat the mixed air from the heat exchanger 122 A filter part (126) provided with a photocatalytic filter (124) for collecting odors;

The photocatalyst filter 124 is installed on one side of the filter part 126 so as to face the photocatalyst filter 124 at a predetermined interval and is electrically connected to the control part 104, A photocatalyst lamp 128 for activating the photocatalytic filter 124 by irradiation;

A discharge part 144 provided at one side of the inside of the casing 102 and provided with a discharge fan 142 for sucking the mixed air filtered through the filter part 126 and discharging it through the discharge damper 140 .

According to another aspect of the present invention, there is provided a method of controlling an air conditioner for odor-

A first step of determining whether a time desired by the user is inputted from the timer setting key 133;

A second step of sending a control signal to the timer 134 and the CO ₂ detection sensor 112 when a desired time is input by the user in the first step;

A third step of determining whether a CO ₂ amount value detected from the CO ₂ detection sensor 112 is received after the second step;

And a fourth step of receiving if the CO ₂ amount value detected by the third step, comparing the pre-set amount of CO ₂ value and the detected value of CO ₂ amounts;

A fifth step of sending a control signal to the photocatalytic lamp 128 and the illuminance detection sensor 130 considering that odor is generated in the indoor air if the CO ₂ amount value detected in the fourth step is high;

A sixth step of determining whether the illuminance value sensed by the illuminance sensor 130 is received after the fifth step;

A seventh step of comparing the sensed illuminance value with the predetermined illuminance value when the sensed illuminance value is received;

An eighth step of sending a control signal to the warning unit 132 when the illuminance value detected in step 7 is low;

A ninth step of determining whether a time desired by the user is counted and received from the timer 134 after the eighth step;

And a tenth step of sending a control signal to the solenoid valve 136 to spray the photocatalyst to the photocatalyst filter 124 when the desired time is counted and received in the ninth step.

As described above, the air conditioner for odor deodorization and the control method thereof according to the present invention can reduce the power consumption by turning on or off the photocatalyst lamp according to the amount of CO ₂ have.

In addition, the present invention has an effect of preventing deterioration of the malodor collection ability of the photocatalytic filter by injecting the photocatalyst into the photocatalytic filter at predetermined time intervals.

Accordingly, the present invention has the effect of reducing power consumption and improving the air quality of the room by reliably taking out the odor generated in the room air.

1 shows a general air conditioner,
2 is a schematic view of an air conditioner for odor deodorization according to the present invention,
Fig. 3 is a view schematically showing the configuration of the air conditioner for odor deodorization of Fig. 2;

Hereinafter, a preferred embodiment of an automatic control method for an energy saving type air conditioner according to the present invention will be described. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 2 is a schematic view of an air conditioner for odor deodorization according to the present invention, and FIG. 3 is a view schematically showing the configuration of an air conditioner for odor deodorization in FIG.

As shown in FIGS. 2 and 3, the air conditioner 100 for odor-

A casing 102;

A control unit 104 installed at one side of the outer surface of the casing 102;

A suction part 110 installed on one side of the casing 102 and provided with a suction fan 108 for sucking room air through a damper 106;

A CO ₂ detection sensor 112 installed at one side of the suction part 110 and electrically connected to the control part 104 for sensing the amount of CO ₂ in the room air sucked in accordance with the control signal of the control part 104;

An exhaust part 116 installed at one side of the casing 102 to exhaust a part of indoor air introduced through the suction part 110 through a discharge damper 114;

A mixing part 120 installed at one side of the inside of the casing 102 to mix the room air introduced through the exhaust part 116 and the outside air sucked through the suction damper 118;

A heat exchanger 122 installed at one side of the casing 102 to cool or warm the mixed air introduced through the mixing part 120 to an appropriate temperature and a heat exchanger 122 to heat the mixed air from the heat exchanger 122 A filter part (126) provided with a photocatalytic filter (124) for collecting odors;

The photocatalyst filter 124 is installed on one side of the filter part 126 so as to face the photocatalyst filter 124 at a predetermined interval and is electrically connected to the control part 104, A photocatalyst lamp 128 for activating the photocatalytic filter 124 by irradiation;

And is installed at one side of the filter part 126 at a predetermined interval from the photocatalytic lamp 128 and is electrically connected to the control part 104 to sense the illuminance of the photocatalytic lamp 128 according to a control signal of the control part 104 An illuminance detection sensor 130;

An alarm unit 132 installed at one side of the outer surface of the casing 102 at a predetermined interval from the control unit 104 and electrically connected to the control unit 104 to generate a beep according to a control signal of the control unit 104;

A timer setting key 133 provided at one side of the outer surface of the casing 102 at a predetermined interval from the warning unit 132 and configured to input a user's desired time to the control unit 104;

A timer 134 installed at one side of the outer surface of the casing 102 at predetermined intervals from the timer setting key 133 and electrically connected to the control unit 104 to count time according to a control signal of the control unit 104, ;

The controller 134 is electrically connected to the controller 104 to supply a photocatalyst to the spray nozzle at a desired time according to a control signal from the controller 104 A solenoid valve 136;

A spray nozzle 138 installed at one side of the ceiling of the filter part 126 for spraying the photocatalyst supplied from the solenoid valve 136 to the photocatalyst filter 124 to prevent the malodor trapping ability of the photocatalyst filter 124 from being deteriorated )and;

A discharge part 144 provided at one side of the inside of the casing 102 and provided with a discharge fan 142 for sucking the mixed air filtered through the filter part 126 and discharging it through the discharge damper 140 .

Meanwhile, the solenoid valve 136 is connected to a suction pump (not shown) for sucking the photocatalyst from a photocatalyst supply unit (not shown).

Hereinafter, the operation of the air conditioner 100 for malodor deodorization according to the present invention will be described.

First, the control unit 104 sends a control signal to the suction fan 108 and the CO ₂ detection sensor 112 provided in the suction part 110.

The suction fan 108 is driven in accordance with a control signal of the control unit 104 to suck indoor air into the suction part 110 through the damper 106 and to discharge the sucked indoor air to the exhaust part 116 send.

The CO ₂ detection sensor 112 senses the amount of CO ₂ in the room air sucked into the suction part 110 according to a control signal of the control part 104 and outputs the detected amount of CO ₂ to the control part 104. Lt; / RTI >

The control unit 104 compares a predetermined CO ₂ amount value with a sensed CO ₂ amount value.

The exhaust part 116 discharges part of the introduced indoor air to the outside through the discharge damper 114 and sends the remaining indoor air to the mixing part 120.

The mixing part 120 mixes the introduced indoor air with the external air sucked through the suction damper 118, and then sends the mixed air to the filter part 126.

The filter part 126 includes a heat exchanger 122, a photocatalytic filter 124, a photocatalyst lamp 128, an illumination sensor 130, and a spray nozzle 138.

The heat exchanger 122 may cool or warm the introduced mixed air to an appropriate temperature and send it to the photocatalytic filter 124.

The photocatalyst filter 124 collects the odor from the mixed air heat-exchanged from the heat exchanger 122, and then sends the mixed air from which the odor is removed to the discharge part 144.

The control unit 104 sends a control signal to the photocatalytic lamp 128 and the illumination intensity sensor 130 installed in the filter part 126.

The photocatalytic lamp 128 irradiates light to the photocatalytic filter 124 in accordance with a control signal from the control unit 104.

The illumination sensor 130 senses illumination of the photocatalyst lamp 128 according to a control signal of the controller 104 and sends the sensed illuminance value to the controller 104.

The controller 104 compares the measured illuminance value with the predetermined illuminance value.

On the other hand, the control unit 104 sends a control signal to the discharge fan 142 installed in the discharge part 144.

The discharge fan 142 is driven in accordance with a control signal from the control unit 104 to send the mixed air from which odor is removed through the discharge damper 140 to the room.

When the power switch is turned off, the malodor-taking air conditioner 100 does not operate.

Hereinafter, the operation of the air conditioner 100 for malodor deodorization according to the present invention will be described.

For odor deodorization according to the present invention Air conditioner  Control method First Embodiment

First, the control unit 104 determines the time required for the user to supply the photocatalyst to the photocatalyst filter 124 from the timer setting key 133 (that is, when the solenoid valve 136 is turned ON and the injection nozzle 138 supplies the photocatalyst to the photocatalyst filter 124) Is input (S1).

The control unit 102 controls the timer 134 and the CO ₂ detection sensor installed in the suction unit 110 on the outer side of the casing 102 112) (S2).

The timer 134 counts a time desired by the user according to the control signal of the controller 102. [

The CO ₂ sensing sensor 112 senses the amount of CO ₂ in the room air sucked into the suction part 110 according to the control signal of the control part 102 and sends the sensed amount of CO ₂ to the control part 104 .

The control unit 104 determines whether a CO ₂ amount value detected from the CO ₂ detection sensor 112 has been received (S3).

If it is determined in step S3 that the sensed CO ₂ amount has been received, the controller 104 compares the predetermined CO ₂ amount with the sensed CO ₂ amount (step S 4).

If the CO ₂ amount detected as a result of the comparison in S4 is high (i.e., the odor is generated in the room air), the control unit 104 controls the photocatalytic lamp 128 and the illuminance And sends a control signal to the detection sensor 130 (S5).

The photocatalyst lamp 128 is turned on in accordance with a control signal from the control unit 104 and irradiates light to the photocatalytic filter 124. The photocatalytic filter 124 reacts with O ₂ and H ₂ O in the air to generate ultraviolet light. The electrons (e -) and holes (h +) generated by the ultraviolet light are reacted with O ₂ and H ₂ O, Two types of radicals produce active oxygen. Particularly, since the hydroxyl radical has high oxidation and reduction potential, it is excellent for NOx, SOx, VOCs and various odor purification, and it can completely remove decomposable pollutants and environmental substances, It has the ability to oxidize all target substances, such as sterilization of 99% or more of various pathogens and bacteria such as yellow reptile and tuberculosis.

The illuminance sensor 130 senses illuminance of the photocatalyst lamp 128 according to a control signal of the controller 104 and sends the sensed illuminance value to the controller 104.

Then, the control unit 104 determines whether the illumination value detected from the illumination sensor 130 has been received (S6).

If it is determined in step S6 that the sensed illuminance value has been received, the controller 104 compares the sensed illuminance value with the predetermined illuminance value in step S7.

If it is determined in step S7 that the sensed illumination value is low, the control unit 104 sends a control signal to the warning unit 132 installed on one side of the casing 102 (S8).

The warning unit 132 sounds a warning sound to the user according to the control signal of the control unit 104. [

Then, the controller 104 determines whether the time desired by the user is counted and received from the timer 134 (S9).

As a result of the determination in S9, if the user's desired time is counted and received, the control unit 104 sends a control signal to the solenoid valve 136 installed at one side of the outer surface of the casing 102 (S10).

The solenoid valve 136 is turned on in accordance with a control signal from the controller 104 to supply the photocatalyst to the spray nozzle 138.

Accordingly, the injection nozzle 138 injects the photocatalyst into the photocatalyst filter 124.

For odor deodorization according to the present invention Air conditioner  Control method Second Embodiment

First, the control unit 104 determines the time required for the user to supply the photocatalyst to the photocatalyst filter 124 from the timer setting key 133 (that is, when the solenoid valve 136 is turned ON and the injection nozzle 138 supplies the photocatalyst to the photocatalyst filter 124) Is input (S1-1).

If it is determined in S1-1 that the desired time has been input by the user, the controller 102 controls the timer 134 installed on one side of the casing 102 and the CO ₂ detection And sends a control signal to the sensor 112 (S2-1).

The timer 134 counts a time desired by the user according to the control signal of the controller 102. [

The CO ₂ sensing sensor 112 senses the amount of CO ₂ in the room air sucked into the suction part 110 according to the control signal of the control part 102 and sends the sensed amount of CO ₂ to the control part 104 .

Then, the controller 104 determines whether the CO ₂ amount detected from the CO ₂ detection sensor 112 has been received (S3-1).

If it is determined in step S3-1 that the sensed CO ₂ amount has been received, the control unit 104 compares the predetermined CO ₂ amount and the sensed CO ₂ amount (step S4-1).

If the value of the CO ₂ amount detected as a result of the comparison in S4-1 is small (i.e., it is considered that odor does not occur in the room air), the control unit 104 determines (S9-1).

If the desired time is counted and received as a result of the determination in S9-1, the control unit 104 sends a control signal to the solenoid valve 136 provided at one side of the outer surface of the casing 102 (S10-1) .

The solenoid valve 136 is turned on in accordance with a control signal from the controller 104 to supply the photocatalyst to the spray nozzle 138.

Accordingly, the injection nozzle 138 injects the photocatalyst into the photocatalyst filter 124.

The foregoing description of the invention is merely exemplary of the invention and is used for the purpose of illustration only and is not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: odor deodorization air conditioner 102: casing
104: control unit 106: damper
108: Suction fan 110: Suction part
112: CO ₂ detection sensor 114: exhaust damper
116: exhaust part 118: suction damper
120: mixing part 122: heat exchanger
124: photocatalyst filter 126: filter part
128: Photocatalyst lamp 130: Illuminance sensor
132: Warning part 133: Timer setting key
134: Timer 136: Solenoid valve
138: injection nozzle 140: discharge damper
142: Discharge fan 144: Discharge part

Claims (4)

A casing 102;
A control unit 104 installed at one side of the outer surface of the casing 102;
A suction part 110 installed on one side of the casing 102 and provided with a suction fan 108 for sucking room air through a damper 106;
A CO ₂ detection sensor 112 installed at one side of the suction part 110 and electrically connected to the control part 104 for sensing the amount of CO ₂ in the room air sucked in accordance with the control signal of the control part 104;
An exhaust part 116 installed at one side of the casing 102 to exhaust a part of indoor air introduced through the suction part 110 through a discharge damper 114;
A mixing part 120 installed at one side of the inside of the casing 102 to mix the room air introduced through the exhaust part 116 and the outside air sucked through the suction damper 118;
A heat exchanger 122 installed at one side of the casing 102 to cool or warm the mixed air introduced through the mixing part 120 to an appropriate temperature and a heat exchanger 122 to heat the mixed air from the heat exchanger 122 A filter part (126) provided with a photocatalytic filter (124) for collecting odors;
The photocatalyst filter 124 is installed on one side of the filter part 126 so as to face the photocatalyst filter 124 at a predetermined interval and is electrically connected to the control part 104, A photocatalyst lamp 128 for activating the photocatalytic filter 124 by irradiation;
A discharge part 144 provided at one side of the inside of the casing 102 and provided with a discharge fan 142 for sucking the mixed air filtered through the filter part 126 and discharging it through the discharge damper 140 Wherein the air conditioner comprises:
A casing 102;
A control unit 104 installed at one side of the outer surface of the casing 102;
A suction part 110 installed on one side of the casing 102 and provided with a suction fan 108 for sucking room air through a damper 106;
A CO ₂ detection sensor 112 installed at one side of the suction part 110 and electrically connected to the control part 104 for sensing the amount of CO ₂ in the room air sucked in accordance with the control signal of the control part 104;
An exhaust part 116 installed at one side of the casing 102 to exhaust a part of indoor air introduced through the suction part 110 through a discharge damper 114;
A mixing part 120 installed at one side of the inside of the casing 102 to mix the room air introduced through the exhaust part 116 and the outside air sucked through the suction damper 118;
A heat exchanger 122 installed at one side of the casing 102 to cool or warm the mixed air introduced through the mixing part 120 to an appropriate temperature and a heat exchanger 122 to heat the mixed air from the heat exchanger 122 A filter part (126) provided with a photocatalytic filter (124) for collecting odors;
The photocatalyst filter 124 is installed on one side of the filter part 126 so as to face the photocatalyst filter 124 at a predetermined interval and is electrically connected to the control part 104, A photocatalyst lamp 128 for activating the photocatalytic filter 124 by irradiation;
And is installed at one side of the filter part 126 at a predetermined interval from the photocatalytic lamp 128 and is electrically connected to the control part 104 to sense the illuminance of the photocatalytic lamp 128 according to a control signal of the control part 104 An illuminance detection sensor 130;
A discharge part 144 provided at one side of the inside of the casing 102 and provided with a discharge fan 142 for sucking the mixed air filtered through the filter part 126 and discharging it through the discharge damper 140 Wherein the air conditioner comprises:
A casing 102;
A control unit 104 installed at one side of the outer surface of the casing 102;
A suction part 110 installed on one side of the casing 102 and provided with a suction fan 108 for sucking room air through a damper 106;
A CO ₂ detection sensor 112 installed at one side of the suction part 110 and electrically connected to the control part 104 for sensing the amount of CO ₂ in the room air sucked in accordance with the control signal of the control part 104;
An exhaust part 116 installed at one side of the casing 102 to exhaust a part of indoor air introduced through the suction part 110 through a discharge damper 114;
A mixing part 120 installed at one side of the inside of the casing 102 to mix the room air introduced through the exhaust part 116 and the outside air sucked through the suction damper 118;
A heat exchanger 122 installed at one side of the casing 102 to cool or warm the mixed air introduced through the mixing part 120 to an appropriate temperature and a heat exchanger 122 to heat the mixed air from the heat exchanger 122 A filter part (126) provided with a photocatalytic filter (124) for collecting odors;
The photocatalyst filter 124 is installed on one side of the filter part 126 so as to face the photocatalyst filter 124 at a predetermined interval and is electrically connected to the control part 104, A photocatalyst lamp 128 for activating the photocatalytic filter 124 by irradiation;
And is installed at one side of the filter part 126 at a predetermined interval from the photocatalytic lamp 128 and is electrically connected to the control part 104 to sense the illuminance of the photocatalytic lamp 128 according to a control signal of the control part 104 An illuminance detection sensor 130;
An alarm unit 132 installed at one side of the outer surface of the casing 102 at a predetermined interval from the control unit 104 and electrically connected to the control unit 104 to generate a beep according to a control signal of the control unit 104;
A timer setting key 133 provided at one side of the outer surface of the casing 102 at a predetermined interval from the warning unit 132 and configured to input a user's desired time to the control unit 104;
A timer 134 installed at one side of the outer surface of the casing 102 at predetermined intervals from the timer setting key 133 and electrically connected to the control unit 104 to count time according to a control signal of the control unit 104, ;
The controller 134 is electrically connected to the controller 104 to supply a photocatalyst to the spray nozzle at a desired time according to a control signal from the controller 104 A solenoid valve 136;
A spray nozzle 138 installed at one side of the ceiling of the filter part 126 for spraying the photocatalyst supplied from the solenoid valve 136 to the photocatalyst filter 124 to prevent the malodor trapping ability of the photocatalyst filter 124 from being deteriorated )and;
A discharge part 144 provided at one side of the inside of the casing 102 and provided with a discharge fan 142 for sucking the mixed air filtered through the filter part 126 and discharging it through the discharge damper 140 Wherein the air conditioner comprises:
A first step of determining whether a time desired by the user is inputted from the timer setting key 133;
A second step of sending a control signal to the timer 134 and the CO ₂ detection sensor 112 when a desired time is input by the user in the first step;
A third step of determining whether a CO ₂ amount value detected from the CO ₂ detection sensor 112 is received after the second step;
And a fourth step of receiving if the CO ₂ amount value detected by the third step, comparing the pre-set amount of CO ₂ value and the detected value of CO ₂ amounts;
A fifth step of sending a control signal to the photocatalytic lamp 128 and the illuminance detection sensor 130 considering that odor is generated in the indoor air if the CO ₂ amount value detected in the fourth step is high;
A sixth step of determining whether the illuminance value sensed by the illuminance sensor 130 is received after the fifth step;
A seventh step of comparing the sensed illuminance value with the predetermined illuminance value when the sensed illuminance value is received;
An eighth step of sending a control signal to the warning unit 132 when the illuminance value detected in step 7 is low;
A ninth step of determining whether a time desired by the user is counted and received from the timer 134 after the eighth step;
And a tenth step of sending a control signal to the solenoid valve 136 to spray the photocatalyst to the photocatalyst filter 124 when the desired time is counted and received in the ninth step Control Method of Air Conditioner for Odor Deodorization.

Images