KR102033045B1 - Intelligent ventilation system and operation method thereof - Google Patents

Abstract

The present invention relates to an intelligent ventilation purification system. The intelligent ventilation purification system includes: a ventilation purifier operated in a ventilation mode, in which indoor air is discharged to the outside and outdoor air is taken in, and in an air purification mode in which indoor air is purified and circulated; an indoor air quality measurement unit located indoors to measure the concentration of indoor fine dust, the concentration of indoor carbon dioxide and the concentration of indoor volatile organic compounds; and a management server receiving the concentration of indoor fine dust, the concentration of indoor carbon dioxide and the concentration of indoor volatile organic compounds measured by the indoor air quality measurement unit and the centration of outdoor fine dust measured by an outdoor air quality measurement unit located outdoors, and transmitting a corresponding mode determination signal to the ventilation purifier based on the centration of outdoor fine dust, the concentration of indoor fine dust, the concentration of indoor carbon dioxide and the concentration of indoor volatile organic compounds. The ventilation purifier is operated in the ventilation mode or the air purification mode in response to the mode determination signal received from the management server.

Description

Intelligent ventilation clean system and its operation method {INTELLIGENT VENTILATION SYSTEM AND OPERATION METHOD THEREOF}

The present invention relates to an intelligent ventilation cleaning system and an operation method thereof, and more particularly, to an intelligent ventilation cleaning system and an operation method thereof that can operate in response to indoor and outdoor air quality.

As the health environment in modern society improves, life expectancy is increasing and public interest in health is increasing. However, the use of fossil fuels, such as industrialization and the rapid increase in the use of automobiles, is deteriorating the air quality day by day, and the concentration of various dust and other pollutants is exceeding the dangerous value. In addition to air pollution, air quality in indoors where most of the time (over 80% to 90%) is severely polluted, but in most cases, it is left unrecognized.

Pollutants that contaminate indoor air quality include volatile organic compounds (VOCs) including fine dust (PM10, PM2.5). These contaminants are weighted by cooking, smoking, microorganisms, etc., can make indoor air worse than outdoor air. Therefore, in a confined indoor space, the indoor pollution level is generally 2 to 5 times higher than the outdoor and sometimes 100 times higher than due to indoor pollutants and human activities (US Environmental Protection Agency EPA, 1987). According to the World Health Organization (WHO), the number of deaths from indoor air pollution is estimated at 2.8 million per year. According to the American Association for Cancer Research (1995), every 10 µg / m 3 increase in ultrafine dust concentrations leads to a 7% increase in overall mortality and a 12% increase in cardiovascular and respiratory disease.

These pollutants are managed in accordance with the Indoor Air Quality Control Act of multi-use facilities, and reinforced maintenance and recommendations are applied to sensitive groups (children, the elderly, pregnant women, etc.) who are relatively affected. Since indoor air pollution is a serious threat to people and adversely affects health, it is necessary to measure, collect, and analyze indoor air in real time to identify the exact state of pollution and take appropriate countermeasures.

An object of the present invention is to provide an intelligent ventilation cleaning system and a method of operating the same, which can be controlled automatically so that the ventilation purifier can operate in a ventilation mode or an air purifying mode by comparing and analyzing indoor and outdoor air conditions.

In addition, another object of the present invention is to provide an intelligent ventilation cleaning system and an operation method thereof capable of automatically adjusting the air volume of the ventilation purifier according to the ventilation mode or the air cleaning mode by reflecting the indoor air condition and the external air condition.

An intelligent ventilation cleaning system according to an embodiment of the present invention is located in the ventilation purifier, which operates in a ventilation mode for discharging indoor air to the outside and introducing the outside air into the room, and an air cleaning mode for purifying and circulating the indoor air. , The indoor dust quality measured by the indoor dust quality, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration and the outdoor air quality meter located outdoors and the indoor dust concentration measured by the indoor air quality meter Receive an indoor carbon dioxide concentration, an indoor volatile organic compound concentration, and determine an operation mode of the ventilation purifier based on the outdoor fine dust concentration, the indoor fine dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration. To recall the corresponding mode decision signal. And a management server for transmitting to the ventilation purifier, wherein the ventilation purifier operates in the ventilation mode or the air cleaning mode in response to a mode determination signal received from the management server.

The management server may determine the air volume intensity in each operation mode of the ventilation purifier based on the indoor fine dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration, and output a corresponding air volume determination signal. The ventilation purifier may be transmitted to a ventilation purifier, and the ventilation purifier may be operated at an air volume intensity corresponding to the air volume determination signal received from the management server.

In addition, the management server, the indoor fine dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration is graded according to a range and weighted for each grade to determine the air volume intensity, the outdoor fine dust In consideration of the concentration is characterized in that the air volume intensity is readjusted.

The management server may control a time point of changing the air volume intensity of the ventilation cleaner in response to a preset use environment when the air volume intensity is required to be changed.

According to an embodiment of the present invention, a method of operating an intelligent ventilation cleaning system includes collecting indoor fine dust concentration, indoor carbon dioxide concentration, indoor volatile organic compound concentration, and indoor fine dust concentration of the building in which the ventilation purifier is located, Determining an operation mode and an air volume intensity of the ventilation purifier based on an outdoor fine dust concentration, the indoor fine dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration, and the operation mode in which the ventilation purifier is determined; and And operating according to the air volume intensity.

In addition, the operation mode includes a ventilation mode and an air cleaning mode.

In the determining of the operation mode and the airflow intensity of the ventilation purifier, the indoor fine dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration are graded according to a range and weighted for each grade to provide the weight. The air volume intensity is determined, but the air volume intensity is adjusted in consideration of the outdoor fine dust concentration.

According to the present invention as described above, it is possible to provide an intelligent ventilation cleaning system and an operation method thereof that can be automatically controlled so that the ventilation purifier can operate in the ventilation mode or the air cleaning mode by comparing and analyzing the indoor air condition and the external air condition. .

In addition, according to the present invention can provide an intelligent ventilation cleaning system and an operation method thereof that can automatically adjust the air volume of the ventilation purifier for each ventilation mode or air cleaning mode by reflecting the indoor air condition and the external air condition.

1 is a view showing an intelligent ventilation clean system according to an embodiment of the present invention.
2 is a view showing a ventilation purifier according to an embodiment of the present invention.
3 is a view showing the indoor air quality meter according to an embodiment of the present invention.
4 and 5 are views for explaining the operation of the intelligent ventilation cleaning system according to an embodiment of the present invention.
6 is a view for explaining an operation method of the intelligent ventilation clean system according to an embodiment of the present invention.

Hereinafter, exemplary embodiments related to the present invention will be illustrated in the drawings and described in detail through the detailed description. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit and scope of the present invention. .

Hereinafter, an intelligent ventilation cleaning system according to an embodiment of the present invention will be described with reference to the drawings related to the embodiments of the present invention.

1 is a view showing an intelligent ventilation clean system according to an embodiment of the present invention.

Referring to FIG. 1, an intelligent ventilation cleaning system according to an embodiment of the present invention may include a ventilation purifier 10, an indoor air quality measuring device 20, and a management server 40.

The ventilation purifier 10 may be installed in the interior of the building 5 to perform ventilation or air cleaning of the indoor space.

For example, the ventilation purifier 10 may operate in a ventilation mode in which the indoor air is discharged to the outside and at the same time an external air is introduced into the room, and an air clean mode in which the indoor air is purified and circulated.

That is, when the outdoor air quality (fine dust) is good and the indoor air quality (fine dust, carbon dioxide, volatile organic compounds) is not good, the ventilation purifier 10 can operate in the ventilation mode, the outdoor air quality (fine dust) is bad and indoor air quality If the fine dust is not good, you can operate in the air cleaning mode.

The operation mode of the ventilation purifier 10 may be determined according to the mode determination signal transmitted from the management server 40.

In addition, the airflow intensity in each mode of the ventilation purifier 10 may vary according to the conditions of the outdoor air quality and the indoor air quality.

For example, the ventilation cleaner 10 may operate at a wind volume intensity corresponding to the wind volume determination signal received from the management server 40.

The indoor air quality meter 20 may be located in the interior of the building 5 to measure indoor air quality. For example, the indoor air quality measured by the indoor air quality meter 20 may include indoor fine dust concentration, indoor carbon dioxide concentration, and indoor volatile organic compound concentration.

In addition, the indoor air quality measuring device 20 may be located separately from the ventilation purifier 10 in order to measure the air quality of the place where the actual user is located, and the measured indoor air quality information is managed through the network through the management server 40. Can be provided as

The outdoor air quality meter 30 may be located outside the building 5 to measure outdoor air quality. For example, the outdoor air quality measured by the outdoor air quality meter 30 may include an outdoor fine dust concentration.

At this time, the fine dust measurement method of the outdoor air quality meter 30 may be implemented by a light scattering method, a beta-ray method, a mass method.

In addition, the outdoor air quality meter 30 may provide the measured outdoor air quality information to the management server 40 through a network.

The management server 40 may determine the operation mode of the ventilation purifier 10 using the outdoor air quality information and the indoor air quality information, and may additionally determine the air volume intensity in a specific operation mode.

To this end, the ventilation purifier 10 measures the outdoor fine dust concentration measured by the outdoor air quality meter 30 and the indoor fine dust concentration measured by the indoor air quality meter 20, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration. The reception mode may determine an operation mode of the ventilation purifier 10 based on the outdoor fine dust concentration, the indoor fine dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration.

In addition, the management server 40 may transmit a mode determination signal corresponding to the determined operation mode to the ventilation purifier 10 through the network.

Meanwhile, the management server 40 uses the received outdoor fine dust concentration, the indoor fine dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration to control the air volume intensity in each operation mode of the ventilation purifier 10. Can be determined.

In addition, the management server 40 may transmit the air volume determination signal corresponding to the determined air volume intensity to the ventilation cleaner 10 through the network.

Here, the network refers to a connection structure capable of exchanging information between each node, such as a terminal and a server. Examples of such a network include the Internet, a local area network, and a wireless local area network. Network (WAN), Wide Area Network (WAN), Personal Area Network (PAN), 3G, 4G, 5G, LTE, Wi-Fi, and the like. The Internet has many services in the TCP / IP protocol and its upper layers: HyperText Transfer Protocol (HTTP), Telnet, File Transfer Protocol (FTP), Domain Name System (DNS), Simple Mail Transfer Protocol (SMTP), and SNMP ( An open computer network structure that provides Simple Network Management Protocol (NFS), Network File Service (NFS), and Network Information Service (NIS).

2 is a view showing a ventilation purifier according to an embodiment of the present invention.

Referring to FIG. 2, the main body 100 is an enclosure-shaped member having an internal space, and forms a plurality of partitions 110 inside the enclosure and arranges the total heat exchange element 120 at the center thereof to the outdoor side. The air introduced into the inlet 104 passes through the heat exchange element 120 and is discharged to the indoor side outlet 102, and at the same time, the indoor air is introduced into the enclosure through the indoor side inlet 103 and again the heat exchange element 120. It may be discharged to the outside through the outdoor outlet 101 through the).

The inner space of the main body 100 is divided into a first space 131, a second space 132, a third space 133, and a fourth space 134 by a plurality of partitions 110. 131 communicates with the outdoor inlet 101, the second space 132 communicates with the indoor inlet 103, the third space 133 communicates with the indoor outlet 102, and a fourth The space 134 may be in communication with the outdoor outlet 104.

The heat exchange element 120 is disposed in the center of the main body 100 to communicate with the first space 131, the second space 132, the third space 133, and the fourth space 134, respectively. The HEPA filter 121 and the prefilter 122 may be disposed on the outer surface of the total heat exchange element 120 communicating with the space 131 so as to overlap each other.

In addition, the first space 131 and the third space 133 may be disposed in the diagonal direction, and the second space 132 and the fourth space 134 may also be disposed in the diagonal direction.

In addition, the third space 133 and the fourth space 134 are provided with separate intake and exhaust fans 301 and 302 for forced intake and exhaust of indoor and outdoor air, respectively, so that the air can be quickly ventilated or cooled and cleaned. It is effective.

On the other hand, the first electric damper 210 is selectively opened and closed between the third space 133 and the fourth space 134 so that external air can be directly introduced into the room without passing through the heat exchange element 120. A second electric damper 220 may be provided between the third space 133 and the heat exchange element 120 to be selectively opened and closed.

A first electric damper 210 that can be selectively opened and closed between the third space 133 and the fourth space 134, and is selectively opened and closed between the third space 103 and the heat exchange element 120. When the first electric damper 210 is opened and the second electric damper 220 is closed and the intake and exhaust fans 301 and 302 are rotated by providing the second electric damper 220, the outside air is forced to the room. May be inhaled.

By preventing the outside air from passing through the heat exchange element 120 to enter the indoor state without heat exchange with the indoor air, if the cooling of the room is necessary, by introducing the cold outside air into the room as it is natural cooling There is an effect to save energy.

When using such a function, it is effective to install a pre-filter 211 on one side of the first electric damper 210 to prevent foreign matter contained in the outside air from entering the room.

An air clean filter 400 is installed between the second space 132 and the third space 133 so that the indoor air can be selectively cleaned, and a third of which is selectively opened and closed on one side of the air clean filter 400. Electric damper 230 may be provided.

The indoor air cleaning function opens only the third electric damper 230 in a state in which the first electric damper 210 and the second electric damper 220 are closed, and opens the intake and exhaust fan 302 installed in the third space 133. By driving, the indoor air passes through the air cleaning filter 400, and after the fine dust or foreign matter contained in the air is removed, it is possible to enter the room and circulate.

The operation method for each operation mode of the ventilation purifier 10 according to the embodiment of the present invention having the above-described configuration is as follows.

First, in the ventilation mode, the first electric damper 210 and the third electric damper 230 are closed and the second electric damper 220 is opened to exhaust the intake and exhaust fan 301 communicating with the outdoor outlet 101. The intake and exhaust fan 302 in communication with the indoor outlet 102 can be operated in the intake direction.

As the intake and exhaust fans 301 and 302 operate, the indoor air flows into the indoor inlet 103 and passes through the heat exchange element 120, and then is discharged to the outside through the outdoor outlet 101, and at the same time After the air enters the outdoor side inlet 104 and passes through the heat exchange element 120, the air flows into the room through the indoor side outlet 102, and the indoor air discharged from the heat exchange element 120 and the external air introduced therefrom. As heat exchange occurs, energy efficiency can be improved.

In the bypass mode, the intake and exhaust fan 301 communicating with the outdoor outlet 101 is opened while the first electric damper 210 is opened and the second electric damper 220 and the third electric damper 230 are closed. It operates in the intake direction, and the intake / exhaust fan 302 communicated with the indoor side outlet 102 is also operated in the intake direction.

As the intake and exhaust fans 301 and 302 operate, external air flows in through the outdoor first outlet damper 210 while being introduced through the outdoor side outlet 101 and enters the interior through the indoor side outlet 102. Cool air can be used to cool the room quickly, resulting in improved energy efficiency.

In the air cleaning mode, the first electric damper 210 and the second electric damper 220 are closed, and the intake and exhaust fan 302 communicating with the indoor outlet 102 is opened while the third electric damper 230 is opened. When operating in the intake direction, the indoor air is introduced into the air cleaning filter 400 through the indoor inlet 103, and dust or foreign matter present in the indoor air is removed and then returned to the room through the indoor outlet 102. As it enters, air cleaning is achieved.

Although not separately illustrated, the ventilator 10 according to an embodiment of the present invention includes a controller (not shown) for controlling the overall operation of the ventilator 10 and a communication module (not shown) for communication with the outside. It can be provided.

Accordingly, the ventilation cleaner 10 may receive a mode determination signal transmitted from the management server 40 through the communication module, and the controller operates the ventilation cleaner 10 in an operation mode corresponding to the received mode determination signal. You can.

In addition, the ventilation cleaner 10 may additionally receive the air volume determination signal transmitted from the management server 40 through the communication module, the control unit in accordance with the received air volume determination signal number of rotation of the intake and exhaust fan (301, 302) By controlling the RPM, the ventilation purifier 10 may be controlled to operate at the airflow intensity corresponding to the corresponding airflow determination signal in each operation mode.

3 is a view showing the indoor air quality meter according to an embodiment of the present invention.

3, the indoor air quality measuring instrument 20 according to an embodiment of the present invention is a fine dust sensor 21, volatile organic compound sensor 22, carbon dioxide sensor 23, noise sensor 24, temperature sensor ( 25), humidity sensor 26, and communication module 27.

The fine dust sensor 21 may measure the fine dust concentration at the indoor point where the indoor air quality measuring device 20 is located, and the volatile organic compound sensor 22 may measure the concentration of the volatile organic compound at the indoor point where the indoor air quality measuring device 20 is located. Can be measured.

At this time, the fine dust sensor 21 can measure the fine dust concentration through the light scattering method.

In contrast, in the case of the national measurement network operated by the Korea Environment Corporation, fine dust is measured by the beta ray absorption method and the weight concentration method (mass method).

The beta-ray absorption method and the weight concentration method have high accuracy, but the measurement takes a long time, so it is not suitable for real-time fine dust measurement.

Therefore, in the intelligent ventilation cleaning system according to the embodiment of the present invention, the light scattering type fine dust sensor 21 having a short measurement time and a small installation area may be employed.

The carbon dioxide sensor 23 may measure the carbon dioxide concentration at the indoor point where the indoor air quality meter 20 is located, and the noise sensor 24 may measure the noise level at the indoor point where the indoor air quality meter 20 is located.

The temperature sensor 25 may measure the temperature of the indoor spot where the indoor air quality meter 20 is located, and the humidity sensor 26 may measure the humidity of the indoor spot where the indoor air quality meter 20 is located.

The communication module 27 measures air quality such as fine dust concentration, carbon dioxide concentration, volatile organic compound concentration, noise level, temperature, and humidity measured by the sensors 21, 22, 23, 24, 25, and 26 described above. This can be transmitted to the management server 40 through the network.

On the other hand, the outdoor air quality meter 30 according to the embodiment of the present invention may have a configuration similar to the indoor air quality meter 20 described above.

However, since it is not necessary to measure the carbon dioxide concentration outdoors, the outdoor air quality meter 30 may include a fine dust sensor, a volatile organic compound sensor, a noise sensor, a temperature sensor, a humidity sensor, and a communication module except for a carbon dioxide sensor. .

Accordingly, the outdoor air quality measuring device 30 may transmit the air quality measurement values such as the measured fine dust concentration, the volatile organic compound concentration, the noise level, the temperature, and the humidity to the management server 40 through the network using a communication module. have.

In addition, some sensors (for example, the noise sensor 24, etc.) may be omitted from the indoor air quality meter 20 and the outdoor air quality meter 30.

4 and 5 are views for explaining the operation of the intelligent ventilation cleaning system according to an embodiment of the present invention.

The management server 40 determines the operation mode of the ventilation purifier 10 by using the collected outdoor air quality information (outdoor fine dust concentration) and indoor air quality information (indoor fine dust concentration, indoor carbon dioxide concentration, indoor volatile organic compound concentration). Can be.

In addition, the management server 40 may classify the collected air quality information into predetermined grades according to the corresponding ranges, as shown in FIG. 4.

For example, outdoor fine dust concentration, indoor fine dust concentration, and indoor carbon dioxide concentration can be graded as 'good', 'normal', 'bad', 'very bad' according to the corresponding range, and indoor volatile organic compound concentration In the case of 'good', 'bad' can be rated according to the range.

In this case, when the outdoor fine dust concentration corresponds to the range of 'good', at least one of the indoor fine dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration corresponds to the range of 'bad', the management server 40 The operation mode of the ventilation cleaner 10 may be determined as a ventilation mode, and a ventilation mode determination signal may be transmitted to the ventilation cleaner 10 through a network.

Thereafter, the ventilation cleaner 10 receiving the ventilation mode determination signal may operate in the ventilation mode.

Meanwhile, when the outdoor fine dust concentration corresponds to the range of 'bad', and the indoor fine dust concentration corresponds to the range of 'bad', the management server 40 changes the operation mode of the ventilation purifier 10 to the air clean mode. And the air clean mode determination signal may be transmitted to the ventilation purifier 10 through the network.

Thereafter, the ventilation cleaner 10 receiving the air clean mode determination signal may operate in the air clean mode.

The method of determining the operation mode of the ventilation purifier 10 by the management server 40 is not limited thereto, and may use outdoor fine dust concentration, indoor fine dust concentration, indoor carbon dioxide concentration, and indoor volatile organic compound concentration as factors. It can be done in other ways.

The management server 40 uses the collected outdoor air quality information (outdoor fine dust concentration) and indoor air quality information (indoor fine dust concentration, indoor carbon dioxide concentration, indoor volatile organic compound concentration) together with an operation mode of the ventilation purifier 10. The air volume intensity in the operation mode may be determined.

To this end, the management server 40 determines the airflow intensity by grading the collected outdoor fine dust concentration, indoor fine dust concentration, indoor carbon dioxide concentration, and indoor volatile organic compound concentration according to the range and weighting each grade. Can be.

For example, indoor dust concentration and indoor carbon dioxide concentration are assigned '0' to 'good' grade, '1' to 'normal' grade, and '2' to 'bad' grade. , 'Very bad' grade can be given as '3'. In addition, in the case of indoor volatile organic compound concentration, 'good' grade can be given '0', 'bad' grade can be given '1'.

For example, the concentration of outdoor fine dust corresponds to the range of 'good', the indoor fine dust concentration corresponds to the range of 'bad', the indoor carbon dioxide concentration corresponds to the range of 'normal', and the indoor volatile organic compound concentration is If you fall in the 'bad' range,

The management server 40 may determine the operation mode of the ventilation purifier 10 as the ventilation mode, and may also determine the air volume intensity as four stages.

In addition, the outdoor fine dust concentration is in the range of 'bad', the indoor fine dust concentration is in the range of 'very bad', the indoor carbon dioxide concentration is in the 'normal' range, the indoor volatile organic compound concentration is If you fall in the 'bad' range,

The management server 40 may determine the operation mode of the ventilation purifier 10 as the air cleaning mode, and may determine the air volume intensity as five stages.

If the air volume intensity of the ventilation purifier 10 is set from 1 stage to 6 stages, the air volume intensity determined by the management server 40 may be limited to a maximum of 6 stages.

In another example, the outdoor fine dust concentration is in the range of 'very bad', the indoor fine dust concentration is in the range of 'good', the indoor carbon dioxide concentration is in the range of 'bad', and the indoor volatile organic compound When the concentration falls within the range of 'bad', the management server 40 may determine the operation mode of the ventilation purifier 10 as the ventilation mode, and may also determine the air volume intensity in four stages.

However, in this case, since the outdoor fine dust concentration corresponds to the range of 'very bad', it is necessary to adjust the air volume in the ventilation mode in consideration of the outdoor fine dust concentration in order to lower the indoor inflow of outdoor air. Therefore, when the outdoor fine dust concentration is in the range of 'very bad', the management server 40 may reduce and set the air volume intensity in comparison with other cases. For example, in the case of the above-described example, the air volume intensity may be set to 2 or 3 stages instead of 4 stages.

Meanwhile, when it is necessary to change the air volume intensity of the ventilation cleaner 10 according to the change of outdoor air quality and / or indoor air quality, the management server 40 transmits a wind volume determination signal reflecting the changed air volume intensity to the ventilation cleaner 10. Can be.

However, depending on the use environment of the building (5) in which the ventilation purifier 10 is located, a case may be restored to its original state within a short time after changing the air volume intensity.

Even in this case, if the air volume intensity is continuously changed, there is a problem in that the efficiency of ventilation or air cleaning is lowered as well as unnecessary energy consumption.

Therefore, as illustrated in FIG. 5, the use environment is set differently according to the use and characteristics of the building 5, and the above-described problem is controlled by controlling the air volume intensity change point of the ventilation purifier 10 in response to the preset use environment. Can be solved.

For example, the use environment of the ventilation purifier 10 may be set to a home, an office, a school, a nursery school, and the like, and a change point of the actual air volume intensity may be differently set according to each use environment from a change point of the air volume condition. .

The air volume condition change time point may mean a time point at which a change in outdoor air quality and / or indoor air quality that needs to change the air volume intensity of the ventilation purifier 10 is detected or recognized.

When the use environment is not set separately, the air volume intensity of the ventilation cleaner 10 may be changed in real time from the time of changing the air volume condition, or the actual air volume intensity may be changed after a time set as a basic time.

6 is a view for explaining an operation method of the intelligent ventilation clean system according to an embodiment of the present invention.

6, the operation method of the intelligent ventilation cleaning system according to an embodiment of the present invention comprises the air quality information collection step (S10), the operation mode and the air flow intensity determination step (S20), and the ventilation purifier operation step (S30) It may include.

In the air quality information collecting step S10, the indoor dust concentration, the indoor carbon dioxide concentration, the indoor volatile organic compound concentration, and the indoor dust concentration of the building 5 may be collected. have.

For example, the management server 40 may receive indoor air quality information measured by the indoor air quality meter 20 and outdoor air quality information measured by the outdoor air quality meter 30 through a network.

In the operation mode and airflow intensity determining step (S20), the operation mode and the airflow intensity of the ventilation purifier 10 may be determined based on the collected outdoor fine dust concentration, indoor fine dust concentration, indoor carbon dioxide concentration, and indoor volatile organic compound concentration. have.

The operation mode of the ventilation purifier 10 may include a ventilation mode and an air cleaning mode, and in the case of the air volume intensity, it may be determined within the air volume range of the ventilation purifier 10.

In addition, the management server 40 may transmit the mode determination signal corresponding to the determined operation mode and the air volume determination signal corresponding to the determined air volume intensity to the ventilation cleaner 10 through the network.

In operation S30 of the ventilation cleaner, the ventilation cleaner 10 may operate according to the operation mode and the airflow intensity determined in the operation mode and the airflow intensity determination step S20.

The ventilation purifier 10 may operate at a specific airflow intensity in a corresponding operation mode based on the mode determination signal and the airflow determination signal received from the management server 40.

Those skilled in the art will appreciate that the present invention can be embodied in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. The scope of the present invention is shown by the claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents are included in the scope of the present invention. Should be interpreted.

10: ventilation purifier
20: indoor air quality meter
30: Outdoor Air Quality Meter
40: management server

Claims (7)

A ventilation purifier capable of operating in a ventilation mode for discharging indoor air to outside and introducing external air into the room and an air cleaning mode for purifying and circulating the indoor air;
An indoor air quality meter located indoors to measure indoor dust concentration, indoor carbon dioxide concentration, and indoor volatile organic compound concentration; And
Receives the outdoor fine dust concentration measured by an outdoor air quality meter located outdoors and the indoor fine dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration measured by the indoor air quality meter, and the outdoor fine dust concentration, the indoor A management server that determines an operation mode of the ventilation purifier based on fine dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration, and transmits a mode determination signal corresponding thereto to the ventilation purifier; Including,
The ventilation purifier,
Operate in the ventilation mode or the air cleaning mode in response to a mode determination signal received from the management server,
The management server,
The airflow intensity in the air purifying mode of the ventilation purifier is determined based on the indoor dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration, and the outdoor dust concentration, the indoor dust concentration, and the indoor Determine the airflow intensity in the ventilation mode of the ventilation purifier based on the carbon dioxide concentration and the indoor volatile organic compound concentration, and transmit a wind volume determination signal corresponding to the determined airflow intensity to the ventilation purifier,
The ventilation purifier,
It operates with the air volume intensity corresponding to the air volume determination signal received from the management server,
The management server,
The indoor fine dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration are graded according to a range and weighted for each grade to determine the airflow intensity in each operation mode of the ventilation purifier, In consideration of the dust concentration, the air volume intensity in the ventilation mode of the ventilation purifier is adjusted,
The use environment of the ventilation purifier,
It is set differently according to the use and characteristics of the building in which the ventilation purifier is located,
The management server,
When a change in the air volume intensity of the ventilation purifier is required according to the change of the outdoor air quality or the indoor air quality, a wind volume determination signal reflecting the changed air volume intensity is transmitted to the ventilation purifier, and a time point of changing the air volume intensity of the ventilation purifier is changed. Intelligent ventilation clean system, characterized in that differently set according to the use environment from. delete delete delete Collecting indoor fine dust concentration, indoor carbon dioxide concentration, indoor volatile organic compound concentration, and outdoor fine dust concentration of the building in a building where a ventilation purifier is located;
Determining an operation mode and an air volume intensity of the ventilation purifier based on the outdoor fine dust concentration, the indoor fine dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration; And
Operating the ventilation purifier according to the determined operation mode and air volume intensity; Including,
The operation mode,
Including ventilation mode and air clean mode,
In the determining of the operation mode and the air volume intensity of the ventilation purifier,
The airflow intensity in the air purifying mode of the ventilation purifier is determined based on the indoor dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration, and the outdoor dust concentration, the indoor dust concentration, and the indoor The air volume intensity in the ventilation mode of the ventilation purifier is determined based on the carbon dioxide concentration and the indoor volatile organic compound concentration, and the indoor fine dust concentration, the indoor carbon dioxide concentration, and the indoor volatile organic compound concentration are graded according to the range. Determine the airflow intensity in each operation mode of the ventilation cleaner by weighting each grade, and adjust the airflow intensity in the ventilation mode of the ventilation cleaner in consideration of the concentration of the outdoor fine dust,
The use environment of the ventilation purifier,
It is set differently according to the use and characteristics of the building where the ventilation purifier is located,
When a change in the air volume intensity of the ventilation purifier is required, the operation time of the intelligent ventilation clean system, characterized in that the time of changing the air volume intensity of the ventilation purifier is set differently according to each use environment from the time of changing the air volume condition. delete delete

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