KR100776602B1 - Air circulation system and control method thereof - Google Patents

Abstract

An air circulation system according to the present invention includes an indoor unit; Outdoor unit; A connecting duct connecting the indoor unit and the outdoor unit; Pollutant detection sensor for detecting the concentration of the pollutant contained in the indoor air; Hazardous substance detection sensor for detecting the concentration of harmful substances contained in the indoor air; And a control unit for setting an operation mode of the system according to the concentration of the pollutant and the concentration of the hazardous substance sensed by the sensors, and controlling the operation of the indoor unit and the outdoor unit according to the set operation mode. do. The control method of the air circulation system according to the present invention detects the concentration of pollutants and harmful substances contained in the indoor air, and sets the operation mode of the system according to the detected concentration of pollutants and the concentration of harmful substances. And operating the system according to the corresponding operation mode set.

Description

Air circulation system and its control method {AIR CIRCULATION SYSTEM AND CONTROL METHOD THEREOF}

1 is a perspective view showing an indoor unit of an air circulation system according to the present invention.

2 is a cross-sectional view showing a connection state between the indoor unit and the outdoor unit of the air circulation system according to the present invention.

3 is a perspective view showing the internal structure of the indoor unit of the air circulation system according to the present invention.

4 is a control block diagram of an air circulation system according to the present invention.

5 is a flow chart showing the operational flow of the air circulation system according to the present invention.

FIG. 6 is a cross-sectional view taken from the arrow direction after cutting along the cutting line B-B of FIG. 1, and illustrates the flow of air through the air supply space during the air circulation operation.

FIG. 7 is a cross-sectional view taken along the line B-B of FIG. 1 and viewed in the direction of an arrow, illustrating a flow of air through the ventilation operation supply space.

FIG. 8 is a cross-sectional view taken along the cutting line A-A of FIG. 1 and viewed in the direction of an arrow, illustrating the flow of air through the exhaust space during the ventilation operation.

FIG. 9 is a cross-sectional view taken along the cutting line B-B of FIG. 1 and viewed in the direction of an arrow, illustrating the flow of air through the air supply space when the ventilation operation and the air purification operation are simultaneously performed.

10 is a cross-sectional view illustrating a state in which a plurality of indoor units are connected to an outdoor unit according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: indoor unit 20: outdoor unit

22: air supply passage 23: exhaust passage

45: air supply damper 45b: air supply damper motor

54: blower fan 60: exhaust space

62: exhaust damper 62b: exhaust damper motor

The present invention relates to an air circulation system and a control method thereof. More particularly, the present invention relates to an air circulation system and a control method for performing proper operation according to the concentration of pollutants contained in indoor air and the concentration of harmful substances.

An air purifier has been developed to filter the dust and dirt in the indoor air to clean the air. This air purification device is to drive the blowing fan to pass through the filter to filter the fine dust and the like to be made through the air circulation process to supply the purified air to the room.

In recent years, various devices and building finishing materials used indoors have been used. As a result, the concentration of harmful substances contained in the indoor space has increased, causing temporary discomfort to occupants. It is causing. Hazardous substances can vary depending on the environment of the indoor space. Generally, dust, tobacco smoke, odors, mold, insecticides, total volatile organic compounds (TVOC), formaldehyde (HCHO), etc. It is emerging as a new harmful substance that worsens.

Existing air purifiers introduce a method of adding a ventilation function in addition to an air purifying function that filters dust contained in the circulating air by using a filter, but can simply perform an air purifying function or a ventilation function and contaminate indoor space. The condition was not recognized and the air purifying function or the ventilation function could not be executed automatically. Although the occupant of the indoor space can set the ventilation or air purifying operation, the occupant himself or herself is very poor and inaccurate in detecting contaminants and harmful substances contained in the indoor space. It is difficult to execute in time. In addition, if necessary, the air purifying operation and the ventilation operation may occur in parallel, and an operation for accurately recognizing and executing such a case is required. Therefore, there is a demand for a system that properly performs ventilation, air purification, ventilation, and air purification according to the pollution state of the indoor space.

SUMMARY OF THE INVENTION An object of the present invention is to provide an air circulation system and a control method for performing ventilation, air purifying or ventilation and air purifying according to concentrations of pollutants contained in indoor air and concentrations of harmful substances contained in indoor air. In providing.

The present invention for achieving the above object,

An air circulation system for purifying and ventilating indoor air in an indoor space, comprising: an indoor unit; Outdoor unit; A pollutant detection sensor for detecting a concentration of a pollutant contained in the indoor air; Hazardous substance detection sensor for detecting the concentration of harmful substances contained in the indoor air; And a control unit for setting an operation mode of the system according to the concentration of the pollutant and the concentration of the harmful substance detected by the sensors, and controlling the operation of the indoor unit and the outdoor unit according to the set operation mode. Characterized in that it comprises a.

The control unit includes a controller for controlling the indoor unit and the outdoor unit, and a memory for storing operation setting information for setting an operation mode of the system.

The operation mode of the system includes a ventilation operation, an air purification operation, a ventilation and an air purification operation, and the operation setting information includes a first upper limit and a first lower limit for the pollutant, a second upper limit and a second limit for the hazardous substance. And a second lower limit, wherein the controller compares the concentration of the pollutant detected by the sensor with the first upper limit and the first lower limit, and the concentration of the hazardous substance detected by the sensor and the second upper limit and the second lower limit. Set the operation mode of the system in comparison with.

The indoor unit is provided to partition the exhaust space and the air supply space therein, and has a blowing fan installed in the air supply space.

The control unit sets the rotational speed of the blower fan to the first speed in the air purification operation, sets the rotational speed of the blower fan to the second speed in the ventilation operation, and the blower in the ventilation and air purification operation. Set the rotation speed of the fan to the third speed.

The third speed is greater than the first speed or the second speed, and the first speed is greater than the second speed.

The second speed is set to the lowest speed.

The indoor unit includes an exhaust damper installed in the exhaust space for access of indoor air, a filter for filtering harmful substances contained in the indoor air, and an air supply installed in the air supply space for access of external air passing through the outdoor unit. A damper is further provided.

The outdoor unit includes a heat exchanger installed at a position where an air supply flow path and an exhaust flow path intersect, a foreign material removing filter installed at an inlet of the heat exchanger, an air supply fan and an air supply fan motor installed in the air supply flow path, and an exhaust heat exchanger. An exhaust fan and an exhaust fan motor.

The pollutant is a gas sensor for detecting the concentration of carbon monoxide or carbon dioxide.

The harmful substance is a total volatile organic compound.

The harmful substance is formaldehyde.                     

The harmful substance includes at least one of dust, tobacco smoke, odors, mold and insecticides.

The present invention further includes a connection duct connected between the plurality of indoor units and the outdoor unit when the plurality of indoor units are installed corresponding to the plurality of indoor spaces, wherein the control unit has a concentration and harmfulness of pollutants corresponding to the indoor units. And controlling the plurality of indoor units and the outdoor units according to the operation mode set according to the concentration of the substance.

The present invention for achieving the above object,

A control method of an air circulation system for purifying and ventilating indoor air, the method comprising: detecting a concentration of a pollutant and a harmful substance contained in the indoor air, and detecting the concentration of the pollutant and a hazardous substance Set the operation mode of the system according to the concentration, characterized in that for operating the system in accordance with the set operation mode.

Operation modes of the system include ventilation operation, air purification operation, ventilation, and air purification operation.

The concentration of the pollutant is compared with the first upper limit and the first lower limit and the concentration of the hazardous substance is compared with the second upper limit and the second lower limit, and the ventilation operation, the air purification operation, the ventilation and the air purification according to the comparison result. Perform any of the driving.

The ventilation and air purification operation is performed when the concentration of the pollutant is greater than the first upper limit and the concentration of the hazardous substance is greater than the second upper limit.                     

The ventilation operation is performed when the concentration of the pollutant is greater than the first upper limit and the concentration of the hazardous substance is not greater than the second upper limit, or the concentration of the pollutant is not greater than the first upper limit and at the same time the first lower limit. It is performed when it is large and the concentration of the said toxic substance is not larger than 2nd lower limit.

The air cleaning operation is performed when the concentration of the noxious substance is greater than the second upper limit and the concentration of the pollutant is not greater than the first upper limit, or the concentration of the noxious substance is not greater than the second upper limit and at the same time the second lower limit. It is performed when it is large and the concentration of the contaminant is not larger than the first lower limit.

The concentration of the pollutant is greater than the first upper limit and the concentration of the hazardous substance is not greater than the second upper limit and the concentration of the hazardous substance is greater than the second upper limit and the concentration of the pollutant is not greater than the first upper limit. Keep the previous operating mode.

The previous operation mode is any one of the ventilation operation, the air purification operation, the ventilation and the air purification operation.

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

The air circulation system according to the present invention is provided to perform a function of purifying indoor air, a function of ventilating indoor air, and a function of ventilating and purifying air, as shown in FIG. 1, in the ceiling 1. It is provided with the indoor unit 10 installed in the corner which the upper surface contact | connects and the two side walls 2 meet.                     

As shown in FIG. 2, the indoor unit 10 is provided to be connected to an outdoor unit 20 installed at an outdoor side, and the outdoor unit 20 is formed at each of the inlets 22a, An air supply passage 22 and an exhaust passage 23 having 23a and outlets 22b and 23b are formed, and an air supply fan 22c and an air supply fan motor 22d are installed at one side of the air supply passage 22, respectively. The exhaust fan 23c and the exhaust fan motor 23d are formed at one side of the exhaust flow path 23.

The air supply flow passage 22 and the exhaust flow passage 23 are provided to cross each other, and the cross section is provided with a total heat exchanger 24 for exchanging heat between the air in the exhaust flow passage and the air in the supply flow passage. The total heat exchanger (24) is to reduce the temperature difference between the outdoor air and the indoor air introduced into the room.

As the air supply fan 22c of the outdoor unit 20 is driven, air introduced through the inlet 22a of the air supply passage 22 is discharged to the outside of the body 21 through the outlet 22b of the air supply passage 22. As the exhaust fan 23c is driven, air introduced through the inlet 23a of the exhaust passage 23 is discharged to the outside of the body 21 through the outlet 23b of the exhaust passage 23.

One end of the air supply duct 31 and the exhaust duct 32 connecting the indoor unit 10 and the outdoor unit 20 to the outlet 22b of the air supply passage 22 and the inlet 23a of the exhaust passage 23. The other end of the air supply duct 31 and the exhaust duct 32 is provided with extensions 31a and 32a extending into the interior space through the interior wall.

As shown in FIG. 3, a duct connecting portion 40 is provided on the rear surface of the indoor unit and coupled to the extension portions 31a and 32a of the ducts 31 and 32, and an air supply duct is provided on the duct connecting portion 40. 31 is formed to be connected to the outside air inlet 41 and the exhaust air duct 32 provided to be connected to the internal air outlet (42).

The interior space of the indoor unit 10 includes a first compartment plate 43 having an air supply space 50 on the right side wider to communicate with the outside air inlet 41 and an exhaust space 60 on the left side narrowly provided to communicate with the air outlet 42. It is arranged to be divided into each other. In the front of the exhaust space 60, the indoor air inlet 61 is provided so that indoor air flows into the exhaust space 60, the exhaust space 60 is the inner surface of the indoor unit to facilitate the communication of air Formed accordingly.

The air supply space 50 is partitioned into a first air supply space 70 on the upper side and a second air supply space 80 on the lower side through the second partition plate 44 which divides the inside up and down, and the first air supply space ( The front of the 70 is provided with a discharge port 51 for discharging the air in the air supply space 50 into the room, the lower surface of the second air supply space 80 is formed so that the indoor air flows into the air supply space (50) The suction port 52 is provided.

The second air supply space 80 above the suction port 52 is provided to cover the suction port, and a filter 53 for filtering indoor air introduced into the air supply space 50 is installed, and the first air supply space 70 is provided. The blower fan 54 is provided with a centrifugal fan to blow air introduced into the air supply space through the outside air inlet and the inlet to the discharge port.

The blowing fan motor 55 is fixed to the inner upper surface of the indoor unit 10. In addition, the second compartment plate 44 is provided so as to communicate with the inlet of the blowing fan 54, the communication hole (44a) formed so that the first air supply space 70 and the second air supply space 80 are formed therebetween, In the first air supply space 70, a blowing guide 71 for guiding the air blown by the blowing fan 54 to the discharge port is provided.

In the middle of the exhaust space 60, an exhaust damper 62 for opening and closing the flow of air is provided, and an air supply inlet 41 is provided with an air supply damper 45 for opening and closing the outdoor air inlet 41.

The air supply damper is composed of the air supply opening and closing member 45a and the air supply damper motor 45b, and the exhaust damper is composed of the exhaust opening and closing member 62a and the exhaust damper motor 62b.

The air supply damper and the exhaust damper are made by the control unit 100 that controls the overall operation of the indoor unit, as shown in FIG.

When the control unit 100 receives an operation start command through the input unit 110, the control unit 100 performs initial operation according to an operation control program in advance. The control unit receives a detection signal from the pollutant detection sensor 120 corresponding to the pollution state of the indoor air, that is, the concentration of the pollutant (for example, carbon dioxide or carbon monoxide) contained in the indoor air, The detection signal corresponding to the concentration of the harmful substances included is provided from the pollutant detection sensor 120. Hazardous substances here include dust, tobacco smoke, odors, molds, insecticides, and include total volatile organic compounds or formaldehyde, which are mainly caused by the building finish of the interior space, but this does not limit the hazardous substances. That is, the hazardous substance may adopt a sensor capable of detecting the corresponding hazardous substance according to the environmental conditions of the indoor space in which the indoor unit is installed.

Pollutant detection sensor 120 and the hazardous material detection sensor 13 is installed in place of the indoor space. Preferably, it is installed inside the indoor unit.

The control unit consists of a controller 101 and a memory 102.

The controller 100 recognizes the indoor pollution state according to the detection signals of the pollutant detection sensor 120 and the hazardous material detection sensor 130 together with the function of starting or stopping the operation of the system according to the input command of the input unit. Set the operating mode of the system accordingly. In addition, the controller 101 controls the fan motor driver 140 according to the set operation mode to drive the air supply fan motor 22d, the exhaust fan motor 23d, and the blower fan motor 55, and the damper motor driver 150. To control the air supply damper motor 45b and the exhaust damper motor 62b.

The memory 102 stores operation setting information for setting the operation mode of the system, which increases the concentration of pollutants that require ventilation by increasing the pollutants in the indoor space and increases the harmful substances in the indoor space. Contains concentrations of hazardous substances that require air purification. For example, the memory stores data of the first upper limit and the first lower limit for pollutants and data of the second upper limit and the second lower limit for hazardous substances.

When performing the air purification operation to purify the indoor air by removing the harmful substances contained in the indoor air, as shown in FIG. 6, the controller closes the air supply damper 45 to close the outside air inlet 41 and the exhaust damper. The blower fan 54 is rotated at the set first speed in a state where the air flow through the exhaust space 60 is blocked by closing 62. Accordingly, the indoor air is introduced into the second air supply space 80 through the suction port 52 by the blowing action of the blowing fan 54 and passes through the filter 53, and the air passing through the filter 53 is harmful. The substance is introduced into the first air supply space 70 in a filtered state and then discharged into the room through the discharge port 51.

When performing a ventilation operation to ventilate the indoor air by discharging the pollutants contained in the indoor air to the outside, as shown in FIG. 7, the controller opens the air supply damper 45 to open the outside air inlet 41, and the exhaust damper 62. ) And rotates the blower fan 54 at a set second speed (less than the first speed) in a state in which air flows through the exhaust space 60. Here, the second speed is set to the minimum speed to allow the incoming external air to be smoothly discharged to the room. If the speed of the blower fan is large, suction of the indoor air through the inlet port 52 is generated, and the ventilation is originally intended. Does not work effectively In the ventilation operation, as shown in FIG. 8, the outdoor air guided through the air supply passage 22 and the air supply duct 31 to the outside air inlet 41 by the action of the air supply fan 22c of the outdoor unit 20. After passing through the second air supply space 80 and the first air supply space 70 in sequence by the action of the blowing fan 54 is supplied to the room through the discharge port 51, the indoor air shown in FIG. As described above, after the inlet 61 is introduced into the exhaust space 60 according to the action of the exhaust fan 23c of the ventilator 20, the exhaust fan 23c is continuously provided through the internal exhaust outlet 42 and the exhaust duct 32. After being delivered to the exhaust passage 23 of the ventilator 20 and discharged to the outside along the exhaust passage 23, the contaminants contained in the indoor air are discharged to the outside to ventilate the indoor air.

In the case of simultaneously performing the air purifying operation and the ventilation operation, as shown in FIG. 9, the controller operates the blower fan 54 at a third speed (first and third speeds) with the respective dampers 45 and 62 open. Rotate more than 2 speed). The indoor air introduced through the suction port 52 and the outdoor air of the air supply duct 31 on the outside air inlet 41 are introduced into the air supply space 50 and then discharged into the room through the discharge port 51, and partially indoors. Air is discharged to the outside through the exhaust space 60, the ventilation and air purification is performed at the same time.

A control method of an air circulation system according to the present invention having the above configuration will be described with reference to the accompanying drawings.

Referring to FIG. 5, first, the controller 101 performs an initial operation according to a preset operation control program in response to an operation start signal input from the input unit 110 (200).

The pollutant sensor 120 and the hazardous substance sensor 130 detect the concentration of the pollutant (PC) and the concentration of the hazardous substance (HC) contained in the indoor air, respectively. The controller recognizes the concentration of the pollutant (PC) and the concentration of the hazardous substance (HC) according to the detection signal input from the sensors 120 and 130 (202).

The controller determines whether the detected concentration of pollutant (PC) is greater than the set first upper limit (204). When the detected concentration of pollutant (PC) is greater than the set first upper limit, the controller determines the ventilation operation variable (i). Set to 1 " (206). When the concentration (PC) of the detected pollutant is not greater than the set first upper limit as a result of the determination of operation 204.

It is determined whether the detected concentration of pollutant (PC) is greater than the set first lower limit (208). If the detected concentration of pollutant (PC) is greater than the set first lower limit, the ventilation operation variable (i) is set to "4". Set to 210. As a result of the determination of operation 208, when the detected concentration of pollutant PC is not greater than the set first lower limit, the ventilation operation variable i is set to “7” (212).                     

When the setting of the ventilation operation parameter is completed, the controller determines whether the detected concentration of the hazardous substance (HC) is greater than the set second upper limit (214), and the detected concentration of the hazardous substance (HC) is higher than the set second upper limit. If large, the air purification operation variable j is set to "0" (216). As a result of the determination of operation 214, if the detected concentration of the hazardous substance (HC) is not greater than the set second upper limit, it is determined whether the detected concentration of the hazardous substance (HC) is larger than the set second lower limit (218). If the concentration HC is greater than the set second lower limit, the air purifying operation variable j is set to "1" (220). If the concentration HC of the detected hazardous substance is not greater than the set second lower limit as a result of the determination of operation 218, the air purification operation parameter j is set to “2” (222).

When the setting of the air purification operation variable is completed, the controller adds the ventilation operation variable (i) and the air purification operation variable (j) to set the operation mode variable (K) (224).

The controller determines whether the operation mode variable K is “1” (226), and if the operation mode variable K is “1” as a result of the determination, as shown in FIG. 9, simultaneously perform the ventilation operation and the air purification operation. (228)

If the operation mode variable K is not "1" as a result of the determination of operation 226, the controller determines whether the operation mode variable K is one of "2", "3", and "6" (230). As a result of the determination, when the operation mode variable K is one of “2”, “3”, and “6”, as shown in FIG. 6, the ventilation operation is performed (232).

If the operation mode variable K does not correspond to any one of “2”, “3” and “6” as a result of the operation 230, the controller determines that the operation mode variable K is “4”, “7”, “ 8 ”, and if the operation mode variable K is one of“ 4 ”,“ 7 ”, and“ 8 ”, the air purification operation is performed as shown in FIG. 7. (236).

If the operation mode variable K does not correspond to any one of “4”, “7”, and “8” as a result of the determination of operation 234, the controller determines whether the operation mode variable K is “5” (238). If the operation mode variable K is not "5", the controller determines that the operation mode variable K is "9" and proceeds to operation 202 accordingly.

When the operation mode variable K is “5” as a result of the determination of operation 238, the controller determines whether the previous operation mode is the air purifying operation (240), and when the previous operation mode is the air purifying operation, the operation is determined. Proceed to 236 to maintain air purification operation. As a result of the determination, if the previous operation mode is not the air purifying operation, the operation proceeds to operation 228 to simultaneously perform the ventilation operation and the air purifying operation. Herein, in operation 240, it is determined whether the previous operation mode is the air purifying operation in operation 240. However, the present invention is not limited thereto, and a method of determining whether the previous operation mode is ventilation operation and maintaining the ventilation operation accordingly may be adopted. Similarly, a method of determining whether the previous mode of operation is a ventilation and air purifying operation and thus maintaining the ventilation and air purifying operation may also be adopted.

As the operation stop command is input from the input unit 110 during the operations 228, 232, and 236, it is determined whether the operation is terminated (242).

If the result of the determination is not the end of operation, the operation proceeds to operation 202 to continue the operation.

10 is a cross-sectional view illustrating a state in which a plurality of indoor units are connected to an outdoor unit according to another embodiment of the present invention.

As shown in the figure, the first indoor unit 10A and the second indoor unit 10B are provided in the first indoor space R1 and the second indoor space R2 partitioned from each other. Here, the first and second indoor units 10A and 10B have the same components of the same function.

The outdoor unit 20A is commonly connected to the first and second indoor units 10A and 10B. As a result, the first and second indoor units 10A and 10B share the air supply flow path 31A and the exhaust flow path 32A.

The operation of the first and second indoor units 10A, 10B and the outdoor unit 20A is independently performed by the above-described control unit according to the concentration of pollutants and the concentration of harmful substances in the corresponding indoor space. .

As described above in detail, the air circulation system according to the present invention automatically sets the operation mode of the system according to the concentration of pollutants and the harmful substances contained in the indoor space, thereby providing a comfortable indoor environment to the indoor residents accurately and easily. It can work.

In addition, the present invention has the advantage that it can be easily configured to extend the connecting member for connecting a plurality of indoor units to the outdoor unit, it is easy to expand.

Claims (24)

An air circulation system for at least one of purifying and ventilating indoor air in an indoor space, Indoor unit; Outdoor unit; A pollutant sensor for sensing a concentration of pollutant contained in the indoor air; Hazardous substance detection sensor for detecting the concentration of harmful substances contained in the indoor air; And a control unit for setting an operation mode of the system according to the concentration of the pollutant and the concentration of the harmful substance detected by the sensors, and controlling the operation of the indoor unit and the outdoor unit according to the set operation mode. Air circulation system comprising a. 2. The air circulation system according to claim 1, wherein the control unit includes a controller for controlling the indoor unit and the outdoor unit, and a memory for storing operation setting information for setting an operation mode of the system. The operation mode of claim 2, wherein the operation mode of the system includes a ventilation operation, an air purification operation, a ventilation, and an air purification operation, and the operation setting information includes a first upper limit and a first lower limit for the pollutant. And a second upper limit and a second lower limit, wherein the controller compares the concentration of the pollutant detected by the sensor with the first upper limit and the first lower limit, and the concentration of the hazardous substance detected by the sensor and the first limit. Air operating system, characterized in that for setting the operating mode of the system compared to the upper limit and the second lower limit. The air circulation system according to claim 3, wherein the indoor unit is provided with an exhaust space and an air supply space partitioned therein, and a blowing fan installed in the air supply space. The air conditioner of claim 3, wherein the control unit sets the rotational speed of the blower fan to a first speed in the air purifying operation, and sets the rotational speed of the blower fan to a second speed in the ventilation operation. The air circulation system, characterized in that for setting the rotational speed of the blowing fan to a third speed in the air purification operation. The method of claim 5, wherein the third speed is greater than the first speed or the second speed, characterized in that the first speed is greater than the second speed. 6. The air circulation system according to claim 5, wherein the second speed is set to a minimum speed. The method of claim 4, wherein the indoor unit is an exhaust damper installed in the exhaust space for the access of the indoor air, a filter for filtering harmful substances contained in the indoor air, for the access of the outside air through the outdoor unit And an air supply damper installed in the air supply space. The air conditioner of claim 1, wherein the outdoor unit includes: a heat exchanger installed at a position where an air supply flow path and an exhaust flow path intersect; a foreign material removal filter installed at an inlet of the heat exchanger; an air supply fan and an air supply fan motor; And an exhaust fan and an exhaust fan motor installed in the exhaust flow path. The air circulation system of claim 1, wherein the pollutant is monocyclic carbon or carbon dioxide. The air circulation system of claim 1 wherein the hazardous substance is a total volatile organic compound. The air circulation system of claim 1, wherein the hazardous substance is formaldehyde. The air circulation system of claim 1, wherein the harmful substance includes at least one of dust, tobacco smoke, odor, mold, and insecticide. The apparatus of claim 1, further comprising a connection duct connected between the plurality of indoor units and the outdoor unit when the plurality of indoor units are installed corresponding to the plurality of indoor spaces, wherein the control unit is configured to remove contaminants corresponding to the indoor units. An air circulation system, characterized in that for controlling a plurality of indoor units and outdoor units in accordance with the operation mode set according to the concentration and the concentration of harmful substances. In the control method of the air circulation system for at least one of purifying and ventilating the indoor air, Detects the concentration of pollutants and harmful substances contained in the indoor air, sets the operation mode of the system according to the detected concentration of pollutants and the concentration of harmful substances, and sets the system according to the corresponding operating mode set. Control method of the air circulation system, characterized in that for driving. 16. The method of claim 15, wherein the operating mode of the system comprises a ventilation operation, an air purification operation, a ventilation, and an air purification operation. The method according to claim 16, wherein the concentration of the pollutant is compared with the first upper limit and the first lower limit, and the concentration of the hazardous substance is compared with the second upper limit and the second lower limit, and the ventilation operation and air purification according to the comparison result. A control method of an air circulation system, characterized in that any one of operation, ventilation and air purification operation. 18. The control method of an air circulation system according to claim 17, wherein the ventilation and air purifying operation is performed when the concentration of the pollutant is greater than the first upper limit and the concentration of the noxious substance is greater than the second upper limit. . 18. The method of claim 17, wherein the ventilation operation is performed when the concentration of the pollutant is greater than the first upper limit and the concentration of the hazardous substance is not greater than the second upper limit, or the concentration of the pollutant is not greater than the first upper limit. And at the same time as the first lower limit and when the concentration of the noxious substance is not larger than the second lower limit. 18. The method of claim 17, wherein the air cleaning operation is performed when the concentration of the noxious substance is greater than the second upper limit and the concentration of the contaminant is not greater than the first upper limit, or the concentration of the noxious substance is not greater than the second upper limit. And at the same time when the concentration of the contaminant is greater than the second lower limit and not greater than the first lower limit. 18. The method of claim 17, wherein the concentration of the pollutant is greater than the first upper limit and the concentration of the hazardous material is not greater than the second upper limit, and the concentration of the hazardous material is greater than the second upper limit and the concentration of the pollutant is zero. The control method of the air circulation system, characterized in that to maintain the previous operation mode if not greater than one upper limit. The method of claim 21, wherein the previous operation mode is any one of the ventilation operation, the air purification operation, the ventilation, and the air purification operation. The method of claim 15, wherein the pollutant is monocyclic carbon or carbon dioxide. The method of claim 15, wherein the hazardous substance comprises at least one of total volatile organic compounds, formaldehyde, dust, tobacco smoke, odors, molds, and insecticides.

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