JP6695862B2 - Ventilation purifier and control method thereof - Google Patents

Description

  The present invention relates to a ventilation cleaner and its control method.

  A ventilation purifier is an air-conditioning facility that is equipped with both a ventilation system that circulates indoor air and a cleaning system that purifies indoor air.By introducing outside air into the room, air is introduced into the room through a filter. Ventilation purifiers have been developed.

  In connection with this, Patent Document 1 described in the following prior art document discloses a ventilation cleaning device.

Korean Published Patent No. 2007-0107195 (publication date: 2017.11.07.)

  In the technical field, there is a demand for a method for more appropriately controlling the operation mode of the ventilation cleaner according to the indoor and outdoor air conditions.

  In order to solve the above-mentioned subject, one embodiment of the present invention provides a ventilation cleaner. The ventilation cleaner includes a first cleaning module for cleaning indoor air, a second cleaning module for cleaning outdoor air, indoor air cleaned by the first cleaning module and outdoor cleaning by the second cleaning module. Based on the indoor and outdoor air condition measured by the sensor unit, the air mixing unit that discharges the air through the discharge port, respectively, or the air mixing unit, and the above based on the indoor and outdoor air condition measured by the sensor unit. A controller for controlling the operation mode by adjusting the flow paths of the first cleaning module and the second cleaning module, or by adjusting the flow rate of the air introduced through the first cleaning module and the second cleaning module. , Can be included.

  Also, another embodiment of the present invention provides a method for controlling a ventilation cleaner. The method for controlling the ventilation cleaner is an indoor cleaning module for purifying indoor air, and a method for controlling an ventilation cleaner including an outdoor cleaning module for purifying outdoor air, in which a state of indoor air and outdoor air is measured, The step of confirming whether the carbon dioxide concentration of the indoor air exceeds a predetermined first reference value or whether the oxygen concentration is less than the second predetermined reference value, and the carbon dioxide concentration of the indoor air is as described above. If it exceeds the first reference value or the oxygen concentration is less than the second reference value, the step of confirming the temperature difference between the indoor air and the outdoor air, and the indoor cleaning module and the outdoor cleaning according to the temperature difference. By adjusting the flow path or flow rate of the module, the outdoor air is purified, and the ventilation cleaning mode in which it is introduced into the room, or the indoor air and outdoor air are each purified before the mixed exhaust And controlling to operate indoors and ventilation cleaning mode can include.

  Further, the means for solving the above problems do not enumerate all the features of the present invention. The various features of the present invention and the advantages and effects thereof can be understood in more detail with reference to the following specific embodiments.

  According to the embodiment of the present invention, the optimum indoor air can be maintained by more appropriately controlling the operation mode of the ventilation cleaner according to the indoor and outdoor air conditions.

It is a block diagram of a ventilation cleaner according to an embodiment of the present invention. 3 is a view showing a flow path formed when the ventilation cleaner according to the exemplary embodiment of the present invention operates in an indoor cleaning mode. 4 is a view showing a flow path formed when the ventilation cleaner according to the embodiment of the present invention operates in a ventilation cleaning mode. 3 is a view illustrating a flow path formed when the ventilation cleaner according to the exemplary embodiment of the present invention operates in a room and ventilation cleaning mode. It is a block diagram of a ventilation cleaner according to another embodiment of the present invention. 3 is a view showing an example of a display unit included in the ventilation cleaner according to the exemplary embodiment of the present invention. 6 is a flowchart illustrating a method for controlling a ventilation cleaner according to another exemplary embodiment of the present invention.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. However, in describing the preferred embodiments of the present invention in detail, when it is determined that a detailed description of known functions or configurations related to the present invention may make the gist of the present invention unnecessary, the detailed description thereof will be omitted. The description is omitted. Further, the same reference numerals are used throughout the drawings for parts having similar functions and actions.

  Throughout the specification, a configuration is “coupled” to another configuration not only when these configurations are “directly coupled” but also “indirectly” through another configuration. It is also meant to include the case of being “linked”. Furthermore, throughout the specification, "comprising" a component means that it can include other components rather than excluding other components unless specifically stated to the contrary. To do.

  FIG. 1 is a configuration block diagram of a ventilation cleaner according to an embodiment of the present invention.

  Referring to FIG. 1, a ventilation cleaner 100 according to an exemplary embodiment of the present invention includes a first cleaning module 110, a second cleaning module 120, an air mixing unit 130, an outlet 140, a sensor unit 150, a controller 160, and a display. The unit 170 may be included, and the wireless communication unit 180 may be further included if necessary.

  The first cleaning module 110 is for purifying indoor air, and can be configured by including a first valve 111, a first flow path 112, and a first filter 113.

  The first valve 111 is provided at one end of the first flow path 112 and is opened and closed under the control of the control unit 160 to form a flow path of room air. When the first valve 111 is opened, the first valve 111 is opened. The indoor air may flow into the first flow path 112. Further, the first valve 111 partially opens or closes (that is, adjusts the opening rate) to expand or contract the flow path of room air. Thereby, the flow rate of the indoor air can be adjusted.

  The first flow passage 112 is a passage through which indoor air moves, and a first valve 111 is provided at one end of the first flow passage 112, and a first filter 113 is connected to the other end of the first flow passage 112. be able to.

  The first filter 113 is connected to the other end of the first flow path 112, and allows room air that has flowed in through the first flow path 112 to pass therethrough and purify the room air.

  The second cleaning module 120 is for purifying outdoor air introduced from the outside, and can be configured by including a second valve 121, a second flow path 122, and a second filter 123.

  The second valve 121 is provided at one end of the second flow path 122 and is opened and closed under the control of the control unit 160 to form a flow path for outdoor air. When the second valve 121 is opened, the second valve 121 is opened. The outdoor air may flow into the second flow path 122. Further, the second valve 121 partially opens and closes to expand or contract the flow path of outdoor air. Thereby, the flow rate of outdoor air can also be adjusted.

  The second flow passage 122 is a passage through which the outdoor air moves, the second valve 121 is provided at one end of the second flow passage 122, and the second filter 123 is connected to the other end of the second flow passage 122. be able to.

  The second filter 123 is connected to the other end of the second flow path 122, and passes the outdoor air that has flowed in through the second flow path 122 to purify it.

  The air mixing unit 130 is respectively connected to the first cleaning module 110 and the second cleaning module 120, and mixes the indoor air purified by the first cleaning module 110 and the outdoor air purified by the second cleaning module 120. It can be discharged through the discharge port 140.

  In addition, the air mixing unit 130 may start from one cleaning module (110 or 120) in which a flow path is formed when one of the flow paths of the first cleaning module 110 and the second cleaning module 120 is closed. The discharged purified air can be discharged through the discharge port 140.

  The air mixing unit 130 may be realized by a double suction fan that rotates in both directions to generate an air flow.

  The sensor unit 150 is for measuring the indoor and outdoor air conditions, and is included in, for example, a gas sensor that measures the concentration of carbon dioxide or oxygen in the air, a temperature sensor that measures the temperature of the air, and the air. Any one or more of a dust sensor that measures the amount of dust present, a humidity sensor that measures the humidity of air, and a radon sensor that measures the concentration of radon in air can be included.

  Although the ventilation cleaner 100 is shown in FIG. 1 to include the sensor unit 150, it is not necessarily limited thereto.

  For example, the ventilation purifier 100 may receive the measurement signal from another sensor. Here, the other sensor may be a sensor installed indoors or outdoors in the space where the ventilation cleaner 100 is installed. The ventilation cleaner 100 may further include a wireless communication unit 180 to receive a measurement signal from another sensor, and the wireless communication unit 180 may be a Bluetooth (registered trademark), Wi-Fi, 3G, or the like. It can be realized by wireless communication technology.

  In addition to this, the ventilation cleaner 100 can also receive an air condition-related signal from the outside (for example, a weather information providing organization such as the Japan Meteorological Agency or a manufacturer) via the wireless communication unit 180 described above.

  The control unit 160 adjusts the flow paths of the first cleaning module 110 and the second cleaning module 120 based on the indoor and outdoor air conditions measured by the sensor unit 150, and the first cleaning module 110 purifies only indoor air. The indoor cleaning mode in which the second cleaning module 120 purifies only outdoor air to flow into the room, and the first cleaning module 110 and the second cleaning module 120 purify indoor air and outdoor air, respectively. Then, it is controlled to operate in one of the room and the ventilation / cleaning mode in which the mixture is discharged. As described above, the control unit 160 can also control the operation mode of the ventilation cleaner 100 based on a signal received from another sensor or the weather information providing period via the wireless communication unit 180.

  For example, if the carbon dioxide concentration of indoor air exceeds a predetermined reference value, or if the oxygen concentration is less than the predetermined reference value, or if the indoor radon concentration is greater than or equal to the predetermined reference value, The controller 160 may control the flow paths of the first cleaning module 110 and the second cleaning module 120 so as to operate in the ventilation cleaning mode in which the outdoor air is purified and flowed into the room. In this case, by further considering the temperature difference between the indoor air and the outdoor air and controlling the flow paths of the first cleaning module 110 and the second cleaning module 120, it is possible to prevent a rapid change in the indoor air temperature. it can.

  Further, when the amount of dust in the indoor air or the amount of dust in the outdoor air exceeds a predetermined reference value, the control unit 160 purifies only the indoor air and discharges the air, thereby operating the indoor cleaning mode. The flow paths of the first cleaning module 110 and the second cleaning module 120 can be controlled.

  Further, the control unit 160 controls the first cleaning module 110 and the second cleaning module 120 so that the indoor air can maintain an appropriate humidity based on the humidity of the indoor air, the humidity of the outdoor air, and the temperature of the indoor air. The flow path can be controlled.

  The humidity according to the temperature of the indoor air can be shown as shown in Table 1 below. In addition, the controller 160 may control the flow paths of the first cleaning module 110 and the second cleaning module 120 so that the humidity according to the temperature of the indoor air can be maintained.

  For example, when the temperature of the indoor air is 30 ° C. and the humidity is 80%, and the temperature of the outdoor air is 27 ° C. and the humidity is 60%, the flow path of the second cleaning module 120 is opened and relatively dried. The humidity of the indoor air can be reduced by allowing the outdoor air to flow into the room.

  The control unit 160 described above is realized by a processor such as a central processing unit (CPU), a graphic processing unit (GPU), a microprocessor, an order-specific semiconductor (Application Specific Integrated Circuit, ASIC), and a Field Programmable Gate Arrays (FPGA). Can be done.

  The display unit 170 may display the indoor and outdoor air conditions measured by the sensor unit 150 (for example, carbon dioxide concentration, radon concentration, pollution degree due to dust amount, temperature, relative humidity, etc.). In addition, the display unit 170 may also display information regarding a predetermined action guideline (for example, being able to go out, restraining going out, preparing for a mask, etc.) based on the indoor and outdoor air conditions measured by the sensor unit 150.

  Further, as described above, when the ventilation cleaner 100 includes the wireless communication unit 180, the information displayed on the display unit 170 according to the control of the control unit 160 is carried by the user via the wireless communication unit 180. The information may be transmitted to a terminal (for example, a smartphone, a tablet, etc.) and the above information may be displayed via the mobile terminal.

  Therefore, an application for interlocking with the ventilation cleaner 100 can be installed in the mobile terminal. The mobile terminal displays the information received from the ventilation cleaner 100 via the installed application. Further, the operation of the ventilation cleaner 100 can be controlled via the application.

  FIG. 2 is a view showing a flow path formed when the ventilation cleaner according to the embodiment of the present invention operates in an indoor cleaning mode.

  Referring to FIG. 2, when the amount of dust in the indoor air or the amount of dust in the outdoor air exceeds a predetermined reference value, the controller 160 purifies only the indoor air by the first cleaning module 110 and discharges the indoor air. The flow paths of the first cleaning module 110 and the second cleaning module 120 can be controlled to operate in the mode.

  Specifically, the control unit 160 opens the first valve 111 of the first cleaning module 110 and closes the second valve 121 of the second cleaning module 120, so that the indoor air is cooled as shown in FIG. It is possible to form only the flow path of

  In this case, the controller 160 adjusts the opening / closing angle of the first valve 111 when the amount of dust is large according to the amount of dust in the room air to enlarge the flow passage, and when the amount of dust is small, reduces the flow passage. You can also

  FIG. 3 is a view illustrating a flow path formed when the ventilation cleaner according to the exemplary embodiment of the present invention operates in a ventilation cleaning mode.

  Referring to FIG. 3, when the carbon dioxide concentration of the indoor air exceeds a predetermined reference value, the control unit 160 operates in the ventilation cleaning mode in which the second cleaning module 120 purifies the outdoor air to flow into the room. Thus, the flow paths of the first cleaning module 110 and the second cleaning module 120 can be controlled.

  Specifically, the control unit 160 closes the first valve 111 of the first cleaning module 110 and opens the second valve 121 of the second cleaning module 120 to open the outdoor air as shown in FIG. 3. It is possible to form only the flow path of

  In this case, the control unit 160 adjusts the opening / closing angle of the second valve 121 when the concentration is high according to the carbon dioxide concentration of the indoor air to enlarge the flow passage, and when the concentration is low, it may reduce the flow passage. it can.

  FIG. 4 is a view showing a flow path formed when the ventilation cleaner according to the exemplary embodiment of the present invention operates in a room and ventilation cleaning mode.

  Referring to FIG. 4, when the carbon dioxide concentration of the indoor air exceeds a predetermined reference value and the temperature difference between the indoor air and the outdoor air exceeds a predetermined reference value, the controller 160 determines that the first The flow paths of the first cleaning module 110 and the second cleaning module 120 are controlled so that the cleaning module 110 and the second cleaning module 120 operate in indoor and ventilation cleaning modes in which indoor air and outdoor air are respectively purified and then mixed and discharged. By doing so, it is possible to prevent a rapid change in the indoor air temperature.

  Specifically, the control unit 160 opens both the first valve 111 of the first cleaning module 110 and the second valve 121 of the second cleaning module 120, so that the indoor air and the outdoor air as shown in FIG. Air flow paths can be formed respectively.

  In this case, the control unit 160 adjusts the opening / closing angle of the second valve 121 when the temperature difference is large in accordance with the temperature difference between the indoor air and the outdoor air to reduce the flow path, and when the temperature difference is small, the second valve 121 is opened. The opening / closing angle of 121 can be adjusted to enlarge the flow path.

  For example, when the temperature difference between the indoor air and the outdoor air is 7 ° C. or more, the control unit 160 can open the first valve 111 by 100% and open the second valve by 20%. However, when the carbon dioxide concentration of the indoor air is equal to or higher than a certain concentration, the second valve can be opened by 50% or more.

  Further, when the temperature difference between the indoor air and the outdoor air is 5 ° C. or more, the control unit 160 can open the first valve 111 by 100% and open the second valve by 40%.

  When the temperature difference between the indoor air and the outdoor air is 3 ° C. or less, the control unit 160 can open the first valve 111 by 0 to 50% and the second valve by 100%. However, the opening rate of the first valve 111 can be adjusted according to the carbon dioxide concentration or oxygen concentration of the indoor air.

  In the above-described example, the criterion for determining the temperature difference and the opening rates of the first valve and the second valve are merely examples, and can be changed by the designer.

  FIG. 5 is a configuration block diagram of a ventilation cleaner according to another embodiment of the present invention.

  The ventilation cleaner 200 shown in FIG. 5 and the ventilation cleaner 100 shown in FIG. 1 are partially different in the detailed configurations of the first cleaning module 210, the second cleaning module 220, and the air mixing section 230. Thereby, the method of controlling the operation mode of the ventilation cleaner 200 is also different, and the rest are the same. Hereinafter, the configuration and method having the differences will be mainly described.

  The first cleaning module 210 and the second cleaning module 220 do not include a valve for controlling the flow path, and include only the first flow path 212 and the first filter 213 and the second flow path 222 and the second filter 223. Can be configured.

  In addition, the air mixing unit 230 is not configured with one double suction fan as shown in FIGS. 2 to 4, but the flow rate of air flowing from the first cleaning module 210 and the second cleaning module 220. It can be configured by including a first motor 231 and a second motor 232 for respectively controlling the.

  In addition, the control unit 260 adjusts the flow rate of the air that flows in through the first cleaning module 210 and the second cleaning module 220 based on the indoor and outdoor air conditions measured by the sensor unit 250, It is controlled to operate in any one of the indoor cleaning mode, the ventilation cleaning mode, and the indoor and ventilation cleaning mode.

  For example, if the carbon dioxide concentration of indoor air exceeds a predetermined reference value, or if the oxygen concentration is less than the predetermined reference value, or if the indoor radon concentration is greater than or equal to the predetermined reference value, The controller 260 adjusts the RPM (Revolutions per minute) of the first motor 231 and the second motor 232, respectively, to adjust the flow rate of the air flowing through the first cleaning module 210 and the second cleaning module 220. By doing so, it can be controlled to operate in the ventilation cleaning mode. In this case, by further considering the temperature difference between the indoor air and the outdoor air, and adjusting the flow rate of the air that flows in through the first cleaning module 210 and the second cleaning module 220, the temperature of the indoor air can be rapidly changed. Change can be prevented.

  Further, when the amount of dust in the indoor air or the amount of dust in the outdoor air exceeds a predetermined reference value, the controller 260 adjusts the RPMs of the first motor 231 and the second motor 232, respectively, so that the first cleaning is performed. By adjusting the flow rate of the air introduced through the module 210 and the second cleaning module 220, it is possible to control to operate in the indoor cleaning mode.

  FIG. 6 is a view illustrating an example of a display unit included in the ventilation cleaner according to the exemplary embodiment of the present invention.

  As shown in FIG. 6, the display unit 170 displays the contamination level (or cleanliness level) measured by the dust sensor in a room air by a method such as a hue change, so that the user can intuitively see the indoor air. It is possible to confirm the degree of pollution of indoor air.

  Further, the display unit 170 displays the concentration of pollution measured by the dust sensor and the concentration of carbon dioxide by a method such as a hue change to the outdoor air, so that the user intuitively pollutes the outdoor air. You can check the degree.

  The display unit 170 can also display information on a predetermined action guideline (for example, being able to go out, restraining going out, preparing for a mask, etc.) based on the state of indoor and outdoor air.

  FIG. 7 is a flow chart showing a method for controlling a ventilation cleaner according to another embodiment of the present invention.

  Referring to FIG. 7, first, various sensors (for example, a gas sensor, a dust sensor, a temperature sensor, a radon sensor, etc.) are used to measure the states of indoor air and outdoor air (S10).

  Next, it is confirmed whether the carbon dioxide concentration of the room air exceeds a predetermined reference value or whether the oxygen concentration is less than the predetermined reference value (S20).

  When the carbon dioxide concentration of the indoor air exceeds the predetermined reference value (or the oxygen concentration is less than the predetermined reference value), the temperature difference between the indoor air and the outdoor air is confirmed (S30), and the temperature difference Adjust the indoor and outdoor flow paths accordingly to operate in a ventilation and clean mode that purifies outdoor air to flow into the room, or in a room and ventilation clean mode in which indoor air and outdoor air are purified and then mixed and discharged. Control (S40).

  On the other hand, when the carbon dioxide concentration of the indoor air is less than or equal to the predetermined reference value (or the oxygen concentration is greater than or equal to the predetermined reference value), the amount of dust in the indoor air or the amount of dust in the outdoor air is determined by the predetermined reference value. It is confirmed whether or not the value is exceeded (S50).

  When the amount of dust in the indoor air or the amount of dust in the outdoor air exceeds a predetermined reference value, only the indoor flow path is opened, and control is performed to operate in an indoor cleaning mode in which only indoor air is purified and discharged ( S60).

  Although not shown in FIG. 7, it is confirmed whether or not the radon concentration in the room is equal to or higher than a predetermined reference value in step S20, and if so, the carbon dioxide concentration is predetermined. It is possible to control to operate in the ventilation cleaning mode or in the indoor and ventilation cleaning mode as well as when the reference value is exceeded.

  Here, since a specific method of controlling the indoor flow path and the outdoor flow path in each mode is as described above with reference to FIGS. 2 to 4, detailed description thereof will be omitted.

  As described above, the present invention has been described by the limited embodiments and the drawings, but the present invention is not limited thereto, and the technical idea of the present invention can be obtained by a person having ordinary knowledge in the technical field to which the present invention belongs. And, various modifications and variations are of course possible within the equivalent scope of the appended claims.

Claims (10)

A first cleaning module for cleaning indoor air;
A second cleaning module for cleaning outdoor air;
An air mixing unit that mixes the indoor air purified by the first cleaning module and the outdoor air purified by the second cleaning module, or mixes them and discharges the mixed air through a discharge port;
A sensor unit for measuring the indoor and outdoor air conditions,
A control unit that controls the operation mode by adjusting the flow rate of air that flows in through the first cleaning module and the second cleaning module based on the indoor and outdoor air conditions measured by the sensor unit; only including,
The operation mode is
An indoor cleaning mode in which only the indoor air is purified and discharged by the first cleaning module,
A ventilation and cleaning mode in which only the outdoor air is purified by the second cleaning module to flow into the room,
An indoor and ventilation cleaning mode in which indoor air and outdoor air are purified by the first cleaning module and the second cleaning module, respectively, and then mixed and discharged.
The air mixing unit includes a first motor and a second motor that control a flow rate of air that flows in through the first cleaning module and the second cleaning module, respectively .
If the carbon dioxide concentration of the indoor air exceeds a predetermined first reference value or the oxygen concentration is less than a predetermined second reference value, the control unit controls the RPMs of the first motor and the second motor. A ventilation cleaner that adjusts (Revolutions per minute) and adjusts a flow rate of air introduced through the first cleaning module and the second cleaning module so as to operate in the ventilation cleaning mode . The control unit is a third reference value in which the carbon dioxide concentration of indoor air exceeds the first reference value or the oxygen concentration is less than the second reference value, and the temperature difference between the indoor air and the outdoor air is predetermined. When it exceeds, the RPM (Revolutions per minute) of the first motor and the second motor is adjusted, respectively, and the flow rate of the air that flows in through the first cleaning module and the second cleaning module is adjusted to control the room. And the ventilation cleaner of claim 1, wherein the ventilation cleaner is controlled to operate in the ventilation cleaning mode. The controller controls the RPM (Revolutions per minute) of the first motor and the second motor when the amount of dust in the indoor air or the amount of dust in the outdoor air exceeds a predetermined fourth reference value or a fifth reference value, respectively. 2. The ventilation cleaner according to claim 1, wherein the ventilation cleaner is controlled to operate in the indoor cleaning mode by adjusting the flow rate of the air introduced through the first cleaning module and the second cleaning module. .. The sensor unit is a gas sensor that measures the concentration of carbon dioxide or oxygen in the air, a temperature sensor that measures the temperature of the air, a dust sensor that measures the amount of dust contained in the air, and a humidity that measures the humidity of the air. The ventilation cleaner according to any one of claims 1 to 3, comprising one or more of a sensor and a radon sensor for measuring a radon concentration in air. Said sensor unit measured indoor and outdoor air conditions by, and further comprising a display unit for displaying information on predetermined action guidelines in accordance with the air condition of the indoor and outdoor, any one of claims 1 to 3 Ventilation purifier as described in. Further including a wireless communication unit for performing wireless communication,
Wherein the control unit controls the operation mode based on a signal received via the wireless communication unit, ventilation purifier according to any one of claims 1 to 3. Further including a wireless communication unit for performing wireless communication,
The control unit transmits, to the mobile terminal via the wireless communication unit, information on an indoor / outdoor air condition measured by the sensor unit and an action guideline determined in advance according to the indoor / outdoor air condition. to ventilation cleaner mounting serial to any one of claims 1 to 3. An indoor cleaning module for purifying indoor air, and a method for controlling a ventilation cleaner including an outdoor cleaning module for purifying outdoor air,
Measuring indoor and outdoor air conditions,
Confirming whether the carbon dioxide concentration of the indoor air exceeds a predetermined first reference value or whether the oxygen concentration is less than a second predetermined reference value,
When the carbon dioxide concentration of the indoor air exceeds the first reference value or the oxygen concentration is less than the second reference value, the temperature difference between the indoor air and the outdoor air is confirmed,
The RPM (Revolutions per minute) of the first motor and the second motor is adjusted according to the temperature difference, and the flow rate of the air introduced through the indoor cleaning module and the outdoor cleaning module is adjusted to adjust the outdoor air. see containing and a step of controlling to operate indoors and ventilation cleaning mode mixing exhaust ventilation cleaning mode to flow into the chamber, or room air and the outdoor air after purification each purifying,
If the carbon dioxide concentration of the indoor air exceeds the first reference value or the oxygen concentration is less than the second reference value and the temperature difference between the indoor air and the outdoor air exceeds a predetermined third reference value, the The first motor and the second motor are respectively adjusted in RPM (Revolutions per minute) to adjust the flow rate of air introduced through the indoor cleaning module and the outdoor cleaning module to operate in the indoor and ventilation cleaning modes. to control in this way, the control method of ventilation cleaner. If the carbon dioxide concentration of indoor air is less than or equal to the first reference value or the oxygen concentration is greater than or equal to the second reference value, the amount of dust in the indoor air or the amount of dust in the outdoor air is determined in advance as a fourth reference value. Confirming whether the value or the fifth reference value is exceeded,
When the amount of dust in the indoor air or the amount of dust in the outdoor air exceeds the fourth reference value or the fifth reference value , respectively, the RPM (Revolutions per minute) of the first motor and the second motor is adjusted to adjust the indoor by adjusting the flow rate of air flowing through the cleaning module and the outdoor cleaning module includes a step of controlling to operate in indoor cleaning mode for discharging purifies only room air, and claim 8 The method for controlling the ventilation purifier according to. Confirming whether or not the radon concentration in the room is greater than or equal to a predetermined sixth reference value,
If the radon concentration in the room is equal to or higher than the sixth reference value, controlling to operate in the ventilation cleaning mode or in the room and ventilation cleaning mode according to the temperature difference between the indoor air and the outdoor air. The method for controlling a ventilation cleaner according to claim 8 , further comprising:

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