KR102472460B1 - Air purifying system having supplementary fan and operating method thereof - Google Patents

Abstract

An air cleaning system having an auxiliary blower and an operating method thereof are disclosed. The air cleaning system including the auxiliary blower measures ambient air quality to obtain first air quality measurement data, receive second air quality measurement data, and determine air volume based on the first and second air quality measurement data. An air purifier that performs an air cleaning operation by adjusting; and obtaining the second air quality measurement data by measuring ambient air quality, receiving the first air quality measurement data, and performing a blowing operation by adjusting air volume based on at least one of the first and second air quality measurement data. It may include an auxiliary blower including an auxiliary blower to do.

Description

Air purification system having an auxiliary blower and method of operating the same

The present application relates to an air cleaning system having an auxiliary blower and an operating method thereof.

An air purifier is a device that purifies pollutants contained in air and converts them into fresh air, and generally has a sensor for measuring air pollution therein.

As such, when the sensor is disposed inside the air purifier, it is operated in a passive form that evaluates the degree of contamination only after polluted air is sucked into the air purifier and reflects it to the operation of the air purifier.

On the other hand, in the case of using a single air purifier in a complex indoor environment such as a residential space or a large space having an area larger than the application area of the air purifier, it is difficult to form a sufficient circulation airflow to form a local clean area, thereby reducing the dust concentration in the space. Deviations may appear large, and dust collection time may be delayed.

In the related art, there is a need for a method for increasing the cleaning efficiency of an air purifier by forming an air flow path in an air dead zone that is difficult or impossible to reach.

In order to solve the above problems, one embodiment of the present invention provides an air cleaning system having an auxiliary blowing device.

An air cleaning system having an auxiliary blower according to an embodiment of the present invention measures ambient air quality to obtain first air quality measurement data, receive second air quality measurement data, and obtain the first and second air quality measurement data. an air purifier that performs an air cleaning operation by adjusting an air volume based on the measured data; and obtaining the second air quality measurement data by measuring ambient air quality, receiving the first air quality measurement data, and performing a blowing operation by adjusting air volume based on at least one of the first and second air quality measurement data. It may include an auxiliary blower including an auxiliary blower to do.

In addition, another embodiment of the present invention provides an operating method of an air cleaning system having an auxiliary blower.

An operating method of an air cleaning system having an auxiliary blower according to another embodiment of the present invention includes measuring first air quality and second air quality by the air purifier and the auxiliary blower, respectively; transmitting second air quality measurement data measured by the auxiliary blower to the air purifier; The air purifier controls the air volume of a first blower provided in the air purifier based on first and second air quality measurement data, and the auxiliary blower controls the air volume of the auxiliary blower based on the second air quality measurement data. Controlling the air volume of the provided second blower unit; re-measuring the first air quality and the second air quality by the air purifier and the auxiliary blower, respectively; transmitting and receiving first and second air quality remeasurement data by the air purifier and the auxiliary blower; and controlling air volume of the first and second blowers, respectively, based on the first and second air quality remeasured data, by the air purifier and the auxiliary blower device.

In addition, the solution to the above problem does not enumerate all the features of the present invention. Various features of the present invention and the advantages and effects thereof will be understood in more detail with reference to specific embodiments below.

According to an embodiment of the present invention, an air flow path is formed for an air dead zone by controlling the operation of the air purifier and the auxiliary blower based on indoor air quality and/or outdoor air quality information of the space in which the air purifier is installed, thereby improving the air quality of the air purifier. This can increase the cleaning efficiency.

1 is a block diagram of an air cleaning system having an auxiliary blower according to an embodiment of the present invention.
2 is a flowchart of an operating method of an air cleaning system having an auxiliary blower according to an embodiment of the present invention.
3 is an operation flowchart of an air purifier depending on whether or not a signal of an auxiliary blower device is detected according to an embodiment of the present invention.
4 is an operation flowchart of an auxiliary blower according to whether an air purifier detects a signal according to an embodiment of the present invention.

Hereinafter, preferred embodiments will be described in detail so that those skilled in the art can easily practice the present invention with reference to the accompanying drawings. However, in describing a preferred embodiment of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and actions.

In addition, throughout the specification, when a part is said to be 'connected' to another part, this is not only the case where it is 'directly connected', but also the case where it is 'indirectly connected' with another element in between. include In addition, 'including' a certain component means that other components may be further included, rather than excluding other components unless otherwise stated.

1 is a block diagram of an air cleaning system having an auxiliary blower according to an embodiment of the present invention.

Referring to FIG. 1 , an air cleaning system having an auxiliary blower according to an embodiment of the present invention may include an air cleaner 100 and an auxiliary blower 200 .

First of all, the air purifier 100 is for performing various operations including an air cleaning function based on the air quality measurement data measured by the air purifier 100 and the auxiliary blower 200, respectively, the sensor unit 110, It may include a communication unit 120, a control unit 130, a blower unit 140, a cleaning unit 150, a display unit 160, a control unit 170, and a power supply unit 180.

The sensor unit 110 is for measuring the air quality around the air purifier 100, for example, a dust sensor for measuring the concentration of dust in the air, a gas sensor for measuring the concentration of gas in the air, and CO ₂ in the air. There are various types of air quality sensors that can measure air conditions, such as a CO ₂ sensor for measuring concentration, a radon sensor for measuring radon concentration in the air, a humidity sensor for measuring humidity in the air, and a temperature sensor for measuring air temperature. It may be configured to include a sensor.

The communication unit 120 is for performing wireless communication with the auxiliary blower 200, and may be implemented using various wireless communication methods such as Bluetooth and NFC. According to an embodiment of the present invention, the communication unit 120 may transmit and receive air quality measurement data to and from the auxiliary blower 200 .

If necessary, the communication unit 120 may further include a function of performing wireless communication with an external server (not shown) or the like, and for example, may be implemented in various wireless communication methods such as Wi-Fi. According to an embodiment of the present invention, the communication unit 120 may receive outdoor air quality data from an external server.

The control unit 130 is for overall controlling the operation of the air purifier 100 based on signals received from one or more of the sensor unit 110, the communication unit 120, and the control unit 170, for example, It may be implemented as a processor such as a processing unit (CPU), a graphics processing unit (GPU), a microprocessor, an Application Specific Integrated Circuit (ASIC), or a Field Programmable Gate Arrays (FPGA).

According to an embodiment of the present invention, the control unit 130 transmits the first air quality measurement data measured by the sensor unit 110 and the second air quality measurement data received from the auxiliary blower 200 through the communication unit 120. Based on this, the operation of the air purifier 100 can be controlled.

In addition, according to an embodiment of the present invention, the controller 130 additionally receives outdoor air quality data received from an external server through the communication unit 120 in addition to the above-described first air quality measurement data and second air quality measurement data. It is possible to control the operation of the air purifier 100 in consideration.

In addition, according to an embodiment of the present invention, the controller 130 controls the operation of the air purifier 100 based on the first air quality measurement data when the signal of the auxiliary blower 200 is not detected, and 1 When the air quality measurement data exceeds a predetermined threshold value, that is, when the air pollution level exceeds an appropriate level, a user alarm may be performed through the display unit 160 or the like.

The operation of the above-described control unit 130 will be described later in more detail with reference to FIGS. 2 and 3 .

The blower 140 is for forming an air flow so that outside air is introduced into the air purifier 100, and may include a blower fan and a motor for driving it.

Here, the blowing fan may be rotated by a motor to form an air flow. In addition, the rotational speed (ie, revolutions per minute; RPM) of the motor may be adjusted according to the control of the controller 130 .

The cleaning unit 150 is for filtering out contaminants contained in the air flowing into the air purifier 100, for example, a method of adsorbing pollutants in the air flowing into the air purifier 100. contaminants can be removed.

For example, the cleaning unit 150 may be composed of one or more filters and may be positioned at the inlet of the air purifier 100 or at the inlet and outlet of the air purifier 100, respectively. Here, the one or more filters may include various types of filters, such as, for example, a prefilter, a functional filter, a HEPA filter (High Efficiency Particulate Air filter), and a deodorization filter. Here, the pretreatment filter is for removing relatively large dust, hair, pet hair, etc., the functional filter is for removing antibacterial, pollen, house mites, germs, bacteria, etc., and the HEPA filter is for removing fine dust, indoor mold, etc. It is for removing various bacteria such as, and the deodorizing filter is for removing various odors and harmful gases in the room.

The display unit 160 is for displaying various information including operation-related information of the air purifier 100, and may be implemented with, for example, an LCD, LED, or PDP.

According to an embodiment of the present invention, the display unit 160 may display indoor or outdoor air quality information, air volume information of the air purifier 100, user alarm information, etc. under the control of the controller 130. .

The control unit 170 is to receive an input for controlling the operation of the air purifier 100 from a user. The control signal input through the control unit 170 is transmitted to the control unit 130, and the control unit 130 can control the operation of the air purifier 100 accordingly.

The power supply unit 180 is to provide power for the operation of the air purifier 100, and may be supplied from, for example, AC power or implemented as a battery.

On the other hand, the auxiliary blower 200 is disposed remotely from the above-described air purifier 100, and measures the air quality around the air quality based on the air quality measurement data or additionally uses the air quality measurement data received from the air purifier 100. It is for performing a blowing operation in consideration, and may be configured to include a sensor unit 210, a communication unit 220, a control unit 230, a blowing unit 240, a display unit 250, and a power supply unit 260.

The sensor unit 210 is for measuring the air quality around the auxiliary blower 200, for example, a dust sensor for measuring the concentration of dust in the air, a gas sensor for measuring the concentration of gas in the air, and CO in the air. ₂ Various types of air conditions can be measured, such as a CO ₂ sensor for measuring concentration, a radon sensor for measuring radon concentration in the air, a humidity sensor for measuring humidity in the air, and a temperature sensor for measuring air temperature. It may be configured to include a sensor of.

The communication unit 220 is for performing communication with the air purifier 100, and may be implemented in various wireless communication methods such as, for example, Bluetooth or NFC. According to an embodiment of the present invention, the communication unit 220 may transmit and receive air quality measurement data to and from the air purifier 100 .

The control unit 230 is for controlling the operation of the auxiliary blower 200 based on a signal received from at least one of the sensor unit 210 and the communication unit 220, for example, a central processing unit (CPU), It may be implemented as a processor such as a graphics processing unit (GPU), a microprocessor, an Application Specific Integrated Circuit (ASIC), or a Field Programmable Gate Arrays (FPGA).

According to an embodiment of the present invention, the controller 230 additionally considers the first air quality measurement data received from the air purifier 100 or based on the second air quality measurement data measured by the sensor unit 210. Thus, the operation of the auxiliary blower 200 may be controlled.

In addition, according to an embodiment of the present invention, the controller 230 additionally considers the outdoor air quality data received through the communication unit 220 in addition to the above-described first air quality measurement data and second air quality measurement data to blow auxiliary air. The operation of the device 200 may be controlled.

In addition, according to an embodiment of the present invention, the control unit 230 controls the operation of the auxiliary blower 200 based on the second air quality measurement data, but the signal of the air purifier 100 is not detected and the second air quality When the measured data exceeds a preset threshold, that is, when the air pollution level exceeds an appropriate level, a user alarm may be issued through the display unit 250 or the like.

The operation of the above-described control unit 230 will be described later in more detail with reference to FIGS. 2 and 4 .

The blower 240 is for forming an air flow under the control of the control unit 230 and may include a blower fan and a motor for driving the blower.

Here, the blowing fan may be rotated by a motor to form an air flow. In addition, the rotational speed of the motor (ie, revolutions per minute (RPM)) may be adjusted according to the control of the controller 230 .

The display unit 250 is for displaying various information including operation-related information of the auxiliary blower 200, and may be implemented with, for example, an LCD, LED, or PDP.

According to an embodiment of the present invention, the display unit 250 may display indoor air quality information, air volume information of the auxiliary blower 200, user alarm information, or the like, under the control of the controller 230.

The power supply unit 260 is to provide power for the operation of the auxiliary blower 200, and may be supplied from, for example, AC power or implemented as a battery.

2 is a flowchart of an operating method of an air cleaning system having an auxiliary blower according to an embodiment of the present invention.

Referring to FIG. 2, first, the air purifier 100 and the auxiliary blower 200 measure the first air quality and the second air quality (S211 and S212), respectively, and the auxiliary blower 200 measures the second air quality data. may be transmitted to the air purifier 100 (S213).

Accordingly, the air purifier 100 may control the air volume of the blower unit based on the first and second air quality measurement data (S214), and the auxiliary blower 200 may control the blower unit based on the second air quality measurement data. It is possible to control the air volume of (S215).

Thereafter, the air purifier 100 and the auxiliary blower 200 may re-measure the first air quality and the second air quality (S221 and S222), and transmit and receive air quality re-measurement data to each other (S223).

Accordingly, the air purifier 100 and the auxiliary blower 200 may control the air volume of their blowers based on the first and second air quality measurement data (S224 and S225).

Steps S221 to S225 after the above-described re-measurement may be repeatedly performed until the operations of the air purifier 100 and the auxiliary blower 200 are stopped.

In addition, although not shown in FIG. 2 , the air purifier 100 and the auxiliary blower 200 may control the air volume of the blower by additionally considering the outdoor air quality information received by the air purifier 100 from an external server. .

Table 1 shows type classification according to the degree of air pollution identified from the first air quality measurement data, the second air quality measurement data, and the outdoor air quality information. Here, type No. 1 to 4 are cases in which the operation is controlled in consideration of only the air quality measurement data measured by the air purifier 100 and the auxiliary blower 200, and type No. 5 to 10 add outdoor air quality information?? It is a case of controlling the operation by considering it.

Type No. air purifier side
air pollution Auxiliary blower side
air pollution outdoor air pollution One go go - 2 I go - 3 go I - 4 I I - 5 go go I 6 I go I 7 go go go 8 I go go 9 go I go 10 I I go

Hereinafter, an example of controlling the operation of the air purifier 100 and the auxiliary blower 200 for each type of Table 1 will be described in detail.

Type No. One

In step S210 of FIG. 2 , when both air pollution levels on the side of the air purifier 100 and the auxiliary blower 200 are high, the air purifier 100 and the auxiliary blower 200 each blow the blowers according to the degree of contamination of the surroundings. It can operate by adjusting the air volume (eg, the number of blowing stages).

Thereafter, in step S220 of FIG. 2, when the air pollution level on the side of the air purifier 100 is maintained or increased and the air pollution level on the side of the auxiliary blower 200 is lowered, the air purifier 100 maintains the air volume during operation, The auxiliary blower 200 may operate by lowering a predetermined number of stages (for example, one stage) compared to the amount of air in operation. Thereafter, the operation of the auxiliary blower 200 and the air cleaner 100 may be stopped after both air pollution levels on the side of the air cleaner 100 and the auxiliary blower 200 are lowered.

On the other hand, in step S220 of FIG. 2, when the air pollution level on the side of the air purifier 100 is lowered and the air pollution level on the side of the auxiliary blower 200 is maintained or increased, both the air purifier 100 and the auxiliary blower device 200 It can be operated by maintaining the operating air volume or increasing a certain number of steps. Thereafter, the air purifier 100 side and the auxiliary blower 200 side may operate as described above according to the air pollution level on both sides until both the air pollution levels are lowered.

Type No. 2

In step S210 of FIG. 2 , when the air pollution level on the side of the air purifier 100 is low and the air pollution level on the side of the auxiliary blower 200 is high, both the air purifier 100 and the auxiliary blower device 200 control the air volume of the blower unit. can be operated by raising

Then, in step S220 of FIG. 2 , when the air pollution level on the side of the air purifier 100 increases, the air purifier 100 operates by maintaining or increasing the air volume in operation, and the auxiliary blower 200 operates by increasing the air volume in operation. keep In this case, the auxiliary blower 200 may operate by lowering a certain number of stages (for example, one stage) compared to the air volume in operation when the degree of pollution of the surrounding air decreases. Thereafter, the operation of the auxiliary blower 200 and the air cleaner 100 may be stopped after both air pollution levels on the side of the air cleaner 100 and the auxiliary blower 200 are lowered.

On the other hand, in step S220 of FIG. 2, if the air pollution level of the air purifier 100 does not increase, the operation of the auxiliary blower 200 and the air purifier 100 after the air pollution level of the auxiliary blower 200 decreases. can stop

Type No. 3

In step S210 of FIG. 2 , when the air pollution level on the side of the air purifier 100 is high and the air pollution level on the side of the auxiliary blower 200 is low, the air purifier 100 controls the air volume of the blower unit until the pollution level around it is lowered. It operates by raising, and the auxiliary blower 200 may not operate.

Type No. 4

In step S210 of FIG. 2 , when both air pollution levels on the air purifier 100 side and the auxiliary blower 200 side are low, both the air purifier 100 and the auxiliary blower 200 may not operate.

Type No. 5

In step S210 of FIG. 2 , when both the air pollution level of the air purifier 100 side and the auxiliary blower 200 side are high and the outdoor air pollution degree is low, which one of the air purifier 100 and the auxiliary blower 200 is contaminated first? Depending on whether or not it detects, it can operate as follows.

First, when the auxiliary blower 200 first detects contamination, the auxiliary blower 200 transmits air quality measurement data to the air purifier 100, and the air purifier 100 and the auxiliary blower 200 respectively It can be operated by adjusting the air volume of the blower unit according to the degree of contamination of the surroundings.

Then, in step S220 of FIG. 2, when the air pollution level of the air purifier 100 is maintained or increased and the air pollution level of the auxiliary blower 200 is lowered, the air purifier 100 operates until the air pollution level is lowered. While maintaining the current air volume, the auxiliary blower 200 may operate by lowering the air volume or stop the operation. In this case, the auxiliary blower 200 may display an alarm indicating that the contamination source has been removed.

On the other hand, when the air purifier 100 first detects contamination, the air purifier 100 transmits air quality measurement data to the auxiliary blower 200, and only the air purifier 100 operates by increasing the air volume, and the auxiliary blower The air volume 200 may be maintained or not operated.

Thereafter, when contamination is also detected by the auxiliary blower 200, the auxiliary blower 200 may operate by transmitting air quality measurement data to the air purifier 100 and increasing the air volume.

Then, in step S220 of FIG. 2 , even if the air pollution level of the air purifier 100 decreases, if the air pollution level of the auxiliary blower 200 does not decrease, the air purifier 100 can maintain the air volume during operation. . In addition, the auxiliary blower 200 may maintain the air volume in operation until the pollution degree of the surroundings is lowered.

On the other hand, the air purifier 100 can maintain the air volume during operation when the pollution level of the surroundings is high even if the air pollution level of the auxiliary blower 200 side is low.

Type No. 6

In step S210 of FIG. 2 , when the air pollution level of the air purifier 100 is low and the air pollution level of the auxiliary blower 200 is high and the outdoor air pollution is low, the air purifier 100 and the auxiliary blower 200 All of them can be operated by increasing the air volume of the blower unit.

Then, in step S220 of FIG. 2, if the air pollution level on the side of the air purifier 100 rises within a predetermined time after the air volume of the air purifier 100 is increased, the air purifier 100 operates until the pollution level around it is lowered. While maintaining the current air volume, the air volume can be lowered or the operation can be stopped. On the other hand, if the air pollution degree on the side of the air purifier 100 does not rise within a predetermined time, the air purifier 100 may lower or stop the air volume.

In addition, the auxiliary blower 200 may lower the air volume or stop the operation when the pollution level of the surrounding area decreases after the air pollution level of the air cleaner 100 increases. On the other hand, if the air pollution degree of the air purifier 100 does not rise within a predetermined time, the operating air volume may be maintained until the ambient contamination level is lowered, and then the air volume may be lowered or the operation may be stopped.

Type No. 7

In step S210 of FIG. 2 , when the air pollution levels of the air purifier 100 and the auxiliary blower 200 are both high and the outdoor air pollution is also high, which one of the air purifier 100 and the auxiliary blower 200 is contaminated first? Depending on whether or not it detects, it can operate as follows.

First, when the auxiliary blower 200 first detects contamination, the auxiliary blower 200 transmits air quality measurement data to the air purifier 100, and the air purifier 100 and the auxiliary blower 200 respectively It can be operated by adjusting the air volume of the blower unit according to the degree of contamination of the surroundings.

Then, in step S220 of FIG. 2, when the air pollution level of the air purifier 100 is maintained or increased and the air pollution level of the auxiliary blower 200 is lowered, the air purifier 100 operates until the air pollution level is lowered. While maintaining the current air volume, the auxiliary blower 200 operates by lowering the air volume and may display an alarm notifying that the pollutant has been removed.

On the other hand, when the air purifier 100 first detects contamination, the air purifier 100 transmits air quality measurement data to the auxiliary blower 200, and only the air purifier 100 operates by increasing the air volume, and the auxiliary blower The air volume 200 may be maintained or not operated.

Thereafter, when contamination is also detected by the auxiliary blower 200, the auxiliary blower 200 may operate by transmitting air quality measurement data to the air purifier 100 and increasing the air volume.

Then, in step S220 of FIG. 2 , even if the air pollution level of the air purifier 100 decreases, if the air pollution level of the auxiliary blower 200 does not decrease, the air purifier 100 can maintain the air volume during operation. . In addition, the auxiliary blower 200 may maintain the air volume in operation until the pollution degree of the surroundings is lowered.

On the other hand, the air purifier 100 can maintain the air volume during operation when the pollution level of the surroundings is high even if the air pollution level of the auxiliary blower 200 side is low. In addition, the air purifier 100 may operate by lowering the air volume when the degree of contamination of the surroundings decreases.

In other words, when the outdoor air pollution level is high, the operation of the air purifier 100 and the auxiliary blower 200 may not be stopped even if the indoor air pollution level is low. Accordingly, it is possible to prevent indoor air from being polluted by pollutants introduced from the outdoors.

Type No. 8

In step S210 of FIG. 2 , when the air pollution level of the air purifier 100 is low and the air pollution level of the auxiliary blower 200 is high and the outdoor air pollution is high, the air purifier 100 and the auxiliary blower 200 All of them can be operated by increasing the air volume of the blower unit.

Then, in step S220 of FIG. 2, if the air pollution level on the side of the air purifier 100 rises within a predetermined time after the air volume of the air purifier 100 is increased, the air purifier 100 operates until the pollution level around it is lowered. It can operate by maintaining the current air volume and lowering the air volume. On the other hand, if the air pollution level on the side of the air purifier 100 does not rise within a predetermined time, the air purifier 100 may operate by lowering the air volume.

In addition, the auxiliary blower 200 may operate by lowering the air volume when the pollution level of the surrounding area decreases after the air pollution level of the air cleaner 100 increases. On the other hand, if the air pollution level of the air purifier 100 does not rise within a predetermined time, the air volume in operation is maintained until the pollution degree of the surroundings is lowered, and then the air volume is lowered to operate.

In other words, when the outdoor air pollution level is high, the operation of the air purifier 100 and the auxiliary blower 200 may not be stopped even if the indoor air pollution level is low. Accordingly, it is possible to prevent indoor air from being polluted by pollutants introduced from the outdoors.

Type No. 9

In step S210 of FIG. 2 , when the air pollution level on the side of the air purifier 100 is high and the air pollution level on the side of the auxiliary blower 200 is low and the outdoor air pollution level is high, the air purifier 100 continues until the pollution level around it is lowered. It operates by increasing the air volume of the blower, and when the pollution level around it decreases, it can operate by lowering the air volume. In addition, the auxiliary blower 200 may continuously operate at a low air volume without stopping operation.

Type No. 10

In step S210 of FIG. 2 , when both the air pollution level on the side of the air purifier 100 and the auxiliary blower 200 are low and the outdoor air pollution level is high, the air purifier 100 and the auxiliary blower 200 determine the outdoor air pollution level. It is possible to continuously operate at a low air volume in consideration of

3 is an operation flowchart of an air purifier depending on whether or not a signal of an auxiliary blower device is detected according to an embodiment of the present invention.

Referring to FIG. 3 , the air purifier measures the first air quality around it (S310) and detects a signal (eg, second air quality measurement data, etc.) of the auxiliary blower (S320).

As a result of the signal detection, when the signal of the auxiliary blower is detected, the air volume of the blower provided in the air purifier may be controlled based on the first and second air quality measurement data (S360).

On the other hand, when the signal of the auxiliary blower is not detected, the air volume of the blower provided in the air purifier may be controlled based on the first air quality measurement data (S330). In addition, when the first air quality measurement data exceeds a predetermined threshold (S340), that is, when the air pollution level exceeds an appropriate level, a user alarm may be performed (S350). Thus, the operation of the auxiliary blower by the user can be induced.

4 is an operation flowchart of an auxiliary blower according to whether an air purifier detects a signal according to an embodiment of the present invention.

Referring to FIG. 4 , the auxiliary blower may measure the second air quality around it (S410) and control the air volume of the blower provided in the auxiliary blower based on the second air quality measurement data (S420).

Thereafter, the auxiliary blower detects the signal of the air purifier (eg, first air quality measurement data, etc.) (S430). When the signal of the air purifier is detected, the air volume of the blower provided in the auxiliary blower may be controlled based on the first and second air quality measurement data (S460).

On the other hand, when the signal of the air purifier is not detected and the second air quality measurement data exceeds a predetermined threshold (S440), that is, when the air pollution level exceeds an appropriate level, a user alarm may be performed (S450). . Accordingly, the operation or ventilation of the air purifier by the user may be induced.

The present invention is not limited by the foregoing embodiments and accompanying drawings. It will be clear to those skilled in the art that the components according to the present invention can be substituted, modified, and changed without departing from the technical spirit of the present invention.

100: air purifier
110: sensor unit
120: communication department
130: control unit
140: blower
150: cleaning unit
160: display unit
170: control panel
180: power supply
200: auxiliary blower
210: sensor unit
220: communication department
230: control unit
240: blower
250: display unit
260: power supply

Claims (14)

First air quality measurement data is obtained by measuring the surrounding air quality, second air quality measurement data is received, and an air cleaning operation is performed by adjusting the air volume based on the first and second air quality measurement data, and then the measurement is performed again. an air purifier that transmits the measured first air quality data and receives the re-measured second air quality data; and
The second air quality measurement data is acquired by measuring the surrounding air quality, the first air quality measurement data is received, the air volume is adjusted based on the second air quality measurement data to perform a blowing operation, and then the re-measured air quality data is measured. 2 an auxiliary blower for transmitting air quality data to the air purifier and receiving the re-measured first air quality data from the air purifier;
As a result of remeasuring the first air quality data and the second air quality data, if the air pollution level of the air purifier is maintained or increased and the air pollution level of the auxiliary blower is lowered, the air purifier maintains the air volume during operation, The auxiliary blower operates by lowering the air volume in operation by a predetermined number of stages,
As a result of re-measuring the first air quality data and the second air quality data, if the air pollution level of the air purifier is lowered and the air pollution level of the auxiliary blower is maintained or increased, both the air purifier and the auxiliary blower are It operates by maintaining the operating air volume or increasing it by a preset number of stages,
As a result of re-measuring the first air quality data and the second air quality data, when both the air pollution levels of the air purifier and the auxiliary blower become low, the air purifier and the auxiliary blower stop their operations. An air purifying system having a.
The method of claim 1, wherein the air purifier,
a sensor unit measuring ambient air quality and outputting the first air quality measurement data;
a communication unit that communicates with the auxiliary blower;
a blowing unit including a blowing fan and a motor for driving the blowing fan, and forming an air flow by rotation of the blowing fan so that external air is introduced into the air purifier;
a cleaning unit filtering contaminants contained in the air introduced by the blowing unit; and
An air cleaning system having an auxiliary blower including a control unit controlling an operation of the blower based on the first and second air quality measurement data.
According to claim 2,
The communication unit further includes a communication function with an external server,
The control unit further considers the outdoor air quality data received from the external server through the communication unit to control the operation of the blower unit.
The method of claim 2, wherein the air purifier,
Further comprising a display unit for displaying information,
The controller controls the operation of the blower based on the first air quality measurement data when the signal of the auxiliary blower is not detected through the communication unit, and the first air quality measurement data exceeds a preset threshold. case, the air cleaning system having an auxiliary blower that performs a user alarm through the display unit.
The method of claim 1, wherein the auxiliary blower,
a sensor unit measuring ambient air quality and outputting the second air quality measurement data;
a communication unit that communicates with the air purifier;
a blowing unit including a blowing fan and a motor for driving the blowing fan, and forming an air flow by rotation of the blowing fan; and
An air cleaning system having an auxiliary blower including a control unit controlling an operation of the blower based on the second air quality measurement data.
According to claim 5,
The air purifying system having an auxiliary blower for controlling an operation of the blower by additionally considering the first air quality measurement data.
According to claim 6,
The air purifying system having an auxiliary blower device, wherein the control unit controls an operation of the blower unit in consideration of the outdoor air quality data received through the communication unit.
According to claim 5,
Further comprising a display unit for displaying information,
The control unit performs a user alarm through the display unit when the signal of the air purifier is not detected through the communication unit and the second air quality measurement data exceeds a preset threshold.
measuring the first air quality and the second air quality by the air purifier and the auxiliary blower, respectively;
transmitting second air quality measurement data measured by the auxiliary blower to the air purifier;
The air purifier controls the air volume of a first blower provided in the air purifier based on first and second air quality measurement data, and the auxiliary blower controls the air volume of the auxiliary blower based on the second air quality measurement data. Controlling the air volume of the provided second blower unit;
re-measuring a first air quality and a second air quality by the air purifier and the auxiliary blower, respectively;
transmitting and receiving first and second air quality remeasurement data by the air purifier and the auxiliary blower; and
Controlling, by the air purifier and the auxiliary blower device, air volumes of the first and second blowers based on the first and second air quality remeasured data, respectively;
As a result of the measurement in the step of measuring, when both the air pollution levels of the air purifier and the auxiliary blower are higher than the predetermined standard, in the step of controlling the air volume, the air purifier and the auxiliary blower are respectively polluting the surroundings. Adjusting the air volume of the first and second blowers respectively according to,
As a result of the measurement in the re-measuring step, if the air pollution level of the air purifier is maintained or increased and the air pollution level of the auxiliary blower is lowered, in the step of controlling the air volume respectively, the air purifier determines the air volume during operation. and the auxiliary blower operates by lowering the air volume in operation by a predetermined number of stages,
If, as a result of the measurement in the re-measuring step, the air pollution level on the air purifier side is lowered and the air pollution level on the auxiliary blower side is maintained or increased, in the step of controlling the air volume, respectively, the air purifier and the auxiliary blower device All operate by maintaining or increasing the air volume in operation by a predetermined number of stages,
As a result of the measurement in the re-measuring step, if both the air pollution levels of the air purifier and the auxiliary blower are low, in the step of controlling the air volume, respectively, the air purifier and the auxiliary blower stop their operations. A method of operating an air cleaning system having a blower device.
delete measuring the first air quality and the second air quality by the air purifier and the auxiliary blower, respectively;
transmitting second air quality measurement data measured by the auxiliary blower to the air purifier;
The air purifier controls the air volume of a first blower provided in the air purifier based on first and second air quality measurement data, and the auxiliary blower controls the air volume of the auxiliary blower based on the second air quality measurement data. Controlling the air volume of the provided second blower unit;
re-measuring a first air quality and a second air quality by the air purifier and the auxiliary blower, respectively;
transmitting and receiving first and second air quality remeasurement data by the air purifier and the auxiliary blower; and
Controlling, by the air purifier and the auxiliary blower device, air volumes of the first and second blowers based on the first and second air quality remeasured data, respectively;
As a result of the measurement in the measuring step, when the air pollution level of the air purifier is lower than the first predetermined standard and the air pollution level of the auxiliary blower is higher than the predetermined second standard, in the step of controlling the air volume, The air purifier and the auxiliary blower operate by increasing the air volume of the first and second blowers by a predetermined number of stages, respectively,
If the air pollution level of the air purifier increases as a result of the measurement in the re-measuring step, in the step of controlling the air volume, the air purifier operates by maintaining or increasing the air volume in operation by a predetermined number of stages, and operating the auxiliary blower maintains the operating air volume,
As a result of the measurement in the re-measuring step, if the air pollution level of the air purifier does not increase and the air pollution level of the auxiliary blower decreases, in the step of controlling the air volume, respectively, the air purifier and the auxiliary blower A method of operating an air cleaning system having an auxiliary blower device for stopping operation.
According to claim 9,
As a result of the measurement in the measuring step, when the air pollution level of the air purifier is higher than the second predetermined standard and the air pollution level of the auxiliary blower is lower than the first predetermined standard, in the step of controlling the air volume, The air purifier operates by increasing the air volume of the first blower by a predetermined number of stages, and the auxiliary blower stops its operation.
The method of claim 9, wherein the step of controlling the air volume, respectively,
The method of operating an air cleaning system having an auxiliary blower, wherein the air purifier and the auxiliary blower additionally consider outdoor air quality information received from an external server to control air volumes of the first and second blowers, respectively.
According to claim 13,
The step of controlling the air volume, respectively, may include controlling the air purifier and the auxiliary blower to operate at a preset air volume even if the indoor air pollution is lower than the first preset standard when the outdoor air pollution level is higher than the preset second standard. A method of operating an air cleaning system having a blower device.

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