KR20170078372A - Air cleaner and control method for the air cleaner - Google Patents

Abstract

The present invention provides an air purification apparatus and method capable of managing the air quality according to the initial value of the radon concentration according to the radon concentration in the area where the user himself / herself is located. The air purifier includes a radon measuring unit for measuring a radon concentration in the room, an air pollution measuring unit for measuring indoor and outdoor air quality, a purifying unit for purifying the indoor air, and a measurement result of the air pollution measuring unit Wherein the control unit measures an initial value of the radon concentration at a position where the user is located and sets a threshold value for controlling the operation of the purifier by the initial value have.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air cleaner,

The present invention is to provide an air purification apparatus and method for controlling indoor air quality by measuring a radon concentration in a room and determining a threshold value at which the air purification apparatus operates.

As the industry develops, the environment becomes polluted. As the quality of life gets higher, the desire to improve it is getting bigger. However, the methodology to improve the scientific and systematic air quality is not enough yet. For example, the air quality of the room in which most people live is merely the ventilation of the room air through the operation of opening or closing the window manually or automatically. Therefore, the window is completely closed It is not possible to ventilate or remove various harmful substances generated in the room, and various pollutants are present in the room as they are, thereby causing various problems.

Conventionally, air purifiers have been used as a means for improving the indoor air quality, but the improvement of the indoor air quality is limited due to its function. In addition, since there is no measuring sensor to measure the numerical value, it is difficult to confirm the amount of pollutant by numerical value, and it is impossible to manage air quality improvement efficiently. In addition, the improvement of the air quality depending on the senses, such as the fact that the environment improvement is not made in connection with other pollution control and cleanliness, is being performed. In particular, when the air cleaner is operated for a long period of time, the amount of ozone (25%) emitted along with the anion (about 75%) continues to increase, resulting in the inhaling of organic compounds and the like.

In recent years, there has been a heightened interest in health, and moreover, it is a fact that no one can deny that health is the most precious and important element in human life. However, in our living space, many pollutants emitted from vehicles and industrial facilities, harmful substances generated from petroleum, building materials made of chemical-related materials, furniture, and electronics are threatening human health , The seriousness of which is increasing.

Particularly, humans live in a limited indoor space of about 80% of the 24 hours a day. In this process, the contaminated air is continuously generated, and the contamination concentration in the room is increased due to the generated polluted air. If the concentration of pollution in the room is not properly adjusted or improved, humans will be forced to unconsciously pollute the air while living and live without harming their health without knowing it.

There are about 250 kinds of indoor air polluting materials including very small substances. Among them, in terms of housing, there are various volatile organic compounds (VOCs) such as formaldehyde (HCHO), radon, toluene, benzene, and acetone, which are carcinogenic substances generated from various indoor building materials, . In human activities, the use of carbon dioxide (CO2), dust, tobacco smoke, foot odor, and microbial substances in various household items E. coli, P. aeruginosa, 0-157, Salmonella), volatile organic pollutants, and other odors, noise, and radiation. It is well known that various harmful substances cause various adverse effects on the human body such as skin allergy, respiratory diseases and headache.

Here, pollutants generated from various building materials can be spontaneously extinguished below the allowable level of pollution degree in about one to five years. Even in this case, it is problematic to improve the air quality until it drops below the standard concentration (below 1000ppm based on CO2) suggested by the Public Sanitation Management Act and Building Law. In addition, harmful substances such as various carbon dioxide generated from human activities can not be eliminated. This is an indispensable material in ecological and environmental aspects. Therefore, it is necessary to improve the indoor air quality so that the indoor air quality is lowered to the allowable level or less even when the occupant is present or the window is closed when the appropriate criterion value is set above the allowable reference value It will be very important. This is because if the natural circulation of harmful air can not be achieved due to the inadequate design of indoor air for natural circulation of our house structure, carbon dioxide generated from human activity will eventually cause carbon dioxide Inhale. In severe cases, problems arise that cause difficulty breathing or serious brain movement.

In particular, in the case of Radon, a naturally occurring radioactive gas, which is noble, odorless and odorless, is the heaviest among natural gases. It does not chemically react with other substances, but is physically very unstable because of its radiation properties. It also sticks to fine particles such as dust and wanders, and when we breathe, it enters the lung through the respiratory system. It has been scientifically proven that radon gas and its short-lived progeny nuclides, which are the products of their decay, are at risk of over-lung cancer if long-term cumulative respiratory exposure. Natural radiation is a part of the living environment of mankind. About half of the natural radiation exposure dose of human beings is caused by the respiratory exposure of natural radioactive radon and its offspring nuclides, and human radiation is actually generated by artificial radiation source It is known that the average dose is 10 to 100 times higher than the average dose.

The action levels for indoor radon vary from country to country, but in the United States, 148 Bq / m3 (1 Bq / m3 means that the radon nuclei in one cubic meter ), And the recommendation standard in Korea is 4 pCi / L in the "Indoor Air Quality Control Act of Multi - use Facilities etc.

WHO has radon 10 times the baseline as the cause of lung cancer. In a September 2009 report, WHO reported that radon was the second most common cause of lung cancer following cigarette smoking. "In countries, the range in which radon causes lung cancer is 3 to 14 percent" He said. In particular, WHO recommended, "Based on recent scientific data, we recommend lowering the acceptance threshold to 100 becquerels per cubic meter (Bq) in order to minimize the health effects of indoor radon emissions," he said. Even if it can not be met, it should not exceed 300 Bq per cubic meter. " In addition, WHO has also recommended reducing indoor radon emissions if careful attention is paid to building design and construction, especially when the indoor radon levels are high. In Korea, there are reports on radon and environmental radiation through various media. However, due to the increasing interest in environmental radiation such as radon, Indoor radon-related comprehensive measures are underway.

However, the reality is that it can not keep up with human desires. In the case of various products having sterilization, deodorization, and air cleaning functions, which are conventionally used to improve various air quality, It is not checked and managed, especially for radon.

According to the embodiments of the present invention, there is provided an air purifier for controlling the indoor air quality by determining the threshold value at which the air purifier operates by measuring the radon concentration in the room, and a control method thereof.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other matters not mentioned can be clearly understood by those skilled in the art from the following description.

According to the embodiments of the present invention, the air purifier includes a radon measuring unit for measuring a radon concentration in a room, an air pollution measuring unit for measuring indoor and outdoor air quality, And a control unit for controlling the operation of the purifier by using the results measured by the radon measuring unit and the air pollution degree measuring unit, wherein the controller measures an initial value of the radon concentration at a position where the user is located And set a threshold value for controlling the operation of the purifier by the initial value.

According to one aspect of the present invention, the control unit can control the operation of the purifier by using environmental factors including the type and size of the indoor space, presence of occupants, season, time, and weather. The control unit may set the threshold value to be higher than the radon concentration pollution allowance reference value when the initial value is high and may set the threshold value to be lower than the reference value when the initial value is low. In addition, the initial value may be measured by the radon measuring unit or directly input by a user. In addition, the room may comprise a plurality of spaces, and the controller may set the initial values differently for the plurality of spaces. The initial value may be set differently according to environmental factors including the type and size of the indoor space, presence of occupants, season, time, and weather.

According to one aspect of the present invention, the radon measuring unit may be provided in the air purifier or separately provided in the room. The room may comprise a plurality of spaces, and the radon measuring unit may include one or a plurality of the radon measuring units. The radon measuring unit may further include a communication unit for transmitting the measurement result from the radon measuring unit to the control unit.

According to one aspect of the present invention, the purifier may include a filter unit including a radon eliminator for removing radon from the room air and a plurality of filters for removing contaminants from the room air. For example, the radon eliminating unit may be provided in the air purifying apparatus or may be formed as a separate entity and installed in the room.

According to one aspect of the present invention, the air pollution degree measuring unit may be provided in the air purification apparatus or at one or more positions in the room. For example, the air pollution degree measuring unit may include an outdoor air quality measuring unit for measuring the outdoor air quality, the outdoor air quality measuring unit may include at least one sensor for measuring the concentration of air pollutants in the outdoor air, a NAMIS (National Air Pollution Information Management System) Data provided by the Meteorological Agency, or air pollution related data provided by the municipality.

According to one aspect of the present invention, the control unit is provided with a communication unit for communicating with an integrated control platform provided externally, and the communication unit may further include pollution degree information including a result measured in the radon measurement unit and the air pollution degree, It is possible to transmit the operation information including the operation information of the subsection and receive the control information for the control of the purification section. Alternatively, the control unit may be provided with a communication unit for communicating with a smart phone, a tablet PC, or a PC equipped with a user, the communication unit including a radon measurement unit and a measurement result of the air pollution degree And transmits the operation information including the pollution degree information and the operation information of the purification unit, and receives the control information for controlling the operation of the purification unit in the terminal.

According to another aspect of the present invention, there is provided an air purifier including a radon measuring unit for measuring a radon concentration in a room, an air pollution degree measuring unit for measuring indoor and outdoor air quality, A display unit for visually displaying information to a user, and a controller for controlling the operation of the purifier and the operation of the display unit using a result of at least one of the results measured by the radon measuring unit and the air pollution measuring unit The control unit may measure an initial value of the radon concentration at a position where the user is located and may set a threshold value for controlling the operation of the purifier by the initial value.

According to one aspect of the present invention, the control unit may further utilize environmental factors including the type and size of the indoor space, the presence of occupants, the season, the time, and the weather. The control unit may set the threshold value to be higher than the radon concentration pollution allowance reference value when the initial value is high and may set the threshold value to be lower than the reference value when the initial value is low.

According to one aspect of the present invention, the display unit can visually display the results measured by the radon measuring unit and the air pollution measuring unit and the operation information of the purifying unit. An input unit may be provided to allow the user to input information including the initial value or to input information for controlling the operation.

According to another aspect of the present invention, there is provided a control method for an air purifier, including: setting an initial value of a radon concentration at a position where an air purifier is located; The method comprising the steps of: setting a threshold value for operation of the air purifier; measuring the radon concentration in the room air; measuring the air pollution degree of the indoor and outdoor air; and calculating the air pollution degree according to the radon concentration and the air pollution degree measurement result The method comprising the steps of:

According to one aspect of the present invention, the operating step of the air purifier can control the operation of the air purifier by using at least one of the measured radon concentration and the air pollution degree measurement result.

According to one aspect of the present invention, in the step of setting the threshold value, when the initial value is high, the threshold value is set to be higher than the radon concentration pollution allowable reference value, and when the initial value is low, Can be set. The step of setting the initial value may be measured by the radon measuring unit or directly input by a user. The room may comprise a plurality of spaces, and the step of setting the threshold may set the initial values differently for the plurality of spaces, or may set the thresholds differently for the plurality of spaces. The step of setting the threshold value may be set differently according to environmental factors including the type and size of the indoor space, the presence of occupants, the season, the time, and the weather.

Various embodiments of the present invention may have one or more of the following effects.

As described above, according to the embodiments of the present invention, it is possible to measure the initial value of the radon at the position of the air purifier, and thereby determine the stepwise threshold value of the radon in which the air purifier operates, can do.

It is possible to control the radon concentration and the indoor air quality by controlling the air purifier according to the measured indoor radon concentration while satisfying the requirements of the existing ventilation system.

In addition, the air quality can be effectively managed by controlling the ventilation in consideration of the indoor air quality as well as the outdoor air quality information.

Further, since the air purification apparatus is controlled by using environmental factors such as the type and size of the space, the number of occupants, the season, the time, and the weather, indoor air quality can be effectively controlled and energy can be saved.

1 is a perspective view illustrating an example of an air purifying apparatus according to an embodiment of the present invention.
Fig. 2 is a view showing a main part of the display unit in the air purifying apparatus of Fig. 1;
3 and 4 are block diagrams for explaining the configuration of an air purifying apparatus according to an embodiment of the present invention.
5 is a block diagram illustrating an operation of the air purifying apparatus according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the difference that the embodiments of the present invention are not conclusive.

In describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

Hereinafter, an air purifier 10 according to embodiments of the present invention will be described with reference to Figs. 1 to 5. Fig. 1 is a perspective view for explaining an example of the air purifying apparatus 10 according to an embodiment of the present invention, and FIG. 2 is a view showing a main part of a display unit in the air purifying apparatus 10 of FIG. 1 to be. 3 and 4 are block diagrams for explaining a configuration of an air purifier 10 according to an embodiment of the present invention, and FIG. 5 is a block diagram of an air purifier 10 according to an embodiment of the present invention. Fig.

Referring to the drawings, the air purifier 10 can manage the indoor air quality according to the radon concentration and the pollution degree of the indoor and outdoor air quality. Further, since the air purifier 10 determines the threshold value at which the air purifier 10 operates according to the initial value of the radon concentration in the area where the user is located, The operation of the air purifying device 10 can be controlled in consideration of the factors depending on the number of houses and the like, and the indoor air quality can be effectively managed.

The air purification apparatus 10 includes a radon measurement unit 11 for measuring the concentration of radon in the room, an air pollution degree measurement unit 12 for measuring indoor and outdoor air pollution degrees, a radon measurement unit 11, And a controller (13) for controlling the operation of the air purifier (10) by integrally managing and indexing the results measured by the air purifier (12). The air purifier 10 is provided with a purifier 14 for purifying indoor air and exchanging indoor and outdoor air. The air purifier 10 is also provided with a display for visually informing the user of various information such as a result measured by the radon measuring unit 11 and the air pollution degree measuring unit 12 or operation information of the air purifier 10 Unit 15 and an input unit 16 for allowing a user to input an operation.

The present invention is not limited thereto. The air purifier 10 may be installed in a ceiling or a wall of an indoor space, It can have a form to be buried.

The radon measuring unit 11 may be provided in the air purifying apparatus 10 or may be formed separately from the air purifying apparatus 10 and provided at one or a plurality of positions in the indoor space. The radon measuring unit 11 may be a sensor for measuring the indoor radon concentration in real time. Alternatively, the radon measuring unit 11 may be a sensor for measuring the indoor radon concentration at a predetermined time interval.

On the other hand, when the concentration of radon in a day is measured, the concentration changes in a form similar to a sine wave. Conventional radon measuring sensors measure the radon concentration for most of the day or longer, so that the average of measured and accumulated measurement data is calculated over a relatively long period of time. In this way, when measuring the daily average value of the radon concentration, the average value may be appropriate, but it can be dangerous due to the high concentration of radon at a certain time.

Radon concentration varies depending on the area and the type of housing. Radon concentrations in single - family homes were higher in the housing types, followed by coalition, multi - family houses, and apartments. Also, among the single houses, the radon concentration was high in the basement and the first floor, when there was no underground space. This is because the radon, which is present in the gaseous state in the soil, leaks into the gap between the bottom of the building and the wall. As a result, many radon were detected in houses in Gangwon, Jeonbuk, Daejeon, Chungnam, Chungbuk and so on. This is due to the relatively high radon emission in granitic and igneous rocks, and in the geology of Gangwon and Jeonbuk provinces.

Here, the radon measuring unit 11 may be provided integrally or separately with the air purifier 10. And a communication unit (not shown) for transmitting the radon concentration measured by the radon measuring unit 11 to the air purifying apparatus 10 when the radon measuring unit 11 is provided separately from the air purifying apparatus 10 . For example, the radon measuring unit 11 may transmit a radon measurement result to the air purifying device 10 using a communication network such as Bluetooth or a mobile communication network or the Internet.

The air pollution degree measuring unit 12 includes a plurality of sensors for measuring air quality. In addition, the air pollution degree measuring unit 12 may be integrally provided in the air purifying device 10, or may be formed as a separate entity, and may be provided in at least one or more positions in the indoor space. A communication unit (not shown) for transmitting the measurement result of the air pollution degree measurement unit 12 to the air purification apparatus 10 is provided when the air pollution degree measurement unit 12 is provided separately from the air purification apparatus 10 . That is, the measurement result of the air pollution degree measurement unit 12 is transmitted to the air purification apparatus 10 by using a communication network such as Bluetooth or a mobile communication network or the Internet network.

In detail, the air pollution degree measuring unit 12 includes an outdoor air quality measuring unit 121 for measuring the pollution degree of outdoor air in an area where the user is located, and various pollutants And an indoor air quality measuring unit 122 for measuring the concentration of the indoor air. However, the present embodiment is not limited to this, and the air pollution degree measuring unit 12 may include various sensors for measuring the air quality and measuring the factors required for ventilation. For example, the air pollution degree measuring unit 12 may include a temperature / humidity sensor 123 for measuring a temperature / humidity of a room. In addition, the air pollution degree measuring unit 12 may include a pest pollution degree detecting unit 124 for detecting the presence of pests in the room.

The outdoor air quality measurement unit 121 includes the concentration of fine dust in the area where the user is located, and includes data measured in a relatively large area, and is measured at a plurality of locations. The outdoor air quality measurement unit 121 may be a sensor for directly measuring the pollution degree of the air, but may include data provided by the national air pollution information management system (NAMIS) in this embodiment. Here, the National Air Pollution Information Management System (NAMIS) collects and manages air pollution data such as sulfur dioxide, carbon monoxide, nitrogen dioxide, ozone, and fine dust at measuring stations located all over the country. The outdoor air quality measurement unit 121 can utilize the air pollution measurement network related infrastructure measured and provided in the national air pollution information management system. In addition, the outdoor air quality measuring unit 121 measures the measurement data of the five air quality reference materials measured in 289 urban air monitoring networks, roadside air monitoring networks, national background monitoring network, and suburban air monitoring network installed in 89 cities / And it is possible to use the data of Air Korea provided to the public in real time. In addition, the outdoor air quality measurement unit 121 may also use data such as the yellow dust alarm system operated by the Korea Meteorological Administration and the ozone alarm system operated by the local governments. As described above, the outdoor air quality measurement unit 121 collects various air pollution related data provided by the national air pollution information management system, air Korea, the Korea Meteorological Administration, the local governments, and the like, and transmits the data to the control unit 13 described later. For this purpose, the outdoor air quality measurement unit 121 is configured to be capable of communicating with the control unit 13 or the air purification apparatus 10.

The indoor air quality measurement unit 122 may include one or a plurality of sensors capable of measuring the presence or concentration of various contaminants present in the air in the room. Indoor air contains various volatile organic compounds (VOCs) such as formaldehyde (HCHO), toluene, benzene, and acetone, which are carcinogenic substances, and pollutants such as nitrogen dioxide (CO 2), dust, cigarette smoke, smell, and microbial substances (Escherichia coli, Pseudomonas aeruginosa, Pseudomonas aeruginosa, 0-157), which are generated when the gas is used to cook food in the kitchen or in the respiration process of the human body , Salmonella) and pollutants such as volatile organic pollutants, other odors, noise, and radiation. The indoor air quality measurement unit 12 may be configured to detect a plurality of contaminants in the indoor air and measure the concentration. The indoor air quality measurement unit 122 may include various sensors such as a VOCs sensor for detecting fine dust, CO2, and VOCs.

Meanwhile, the air pollution degree measuring unit 12 may include a pest contamination degree detecting unit 124 for detecting harmful organisms such as various insects such as insect pests, walking insects, and mice as well as pollutants. For example, the insect pest contamination level sensing unit 124 can detect whether a pest is present in a room or whether a pest is trapped in a pest catching device or the like. In addition, the pest pollution degree may further include not only the information on the measured pest, but also information on whether or not the pest has previously occurred, and the occurrence information related to the environment in which the pest can occur. However, the present invention is not limited thereto, and the pest pollution degree sensing unit 124 may include various means for directly or indirectly sensing the pest.

The air purifier 10 may include various sensors such as a pressure sensor, an illuminance sensor, etc. in addition to the sensors described above.

The purifier 14 purifies the room air. For example, the purifying unit 14 may be provided with a radon removing unit 141 for removing radon from the room air. Here, the radon removing unit 141 may be integrally provided with the air purifying device 10 or may be formed as a separate entity, and may be provided at one or more positions in the room. The purifier 14 is provided with a filter unit 142 for purifying various contaminants generated and present in the room and various contaminants that may enter the room. For example, the filter unit 142 may include various filters including a pre-filter, a deodorizing filter, a sterilizing filter, and a functional filter, and may include a plurality of filters.

The air purifier 10 may be provided with a pest removing device for removing pests or may be integrally provided.

On the other hand, the air purifier 10 can be operated alone, but it can be configured to transmit the measurement result from the air purifier 10 to the outside and receive data from the outside. To this end, an integrated control platform 17 for controlling the operation of the air purifier 10 and sending / receiving data to / from the outside may be provided. For example, the integrated control platform 17 includes an integrated DB 171 for storing and managing result data measured by the radon measuring unit 11 and the air pollution measuring unit 12, and a server system 172 . However, in the present embodiment, it is exemplified that data is transmitted and received from the air pollution degree measuring unit 12 remotely through the control unit 13, but it is also possible that the contamination degree measurement and analysis and the exponent analysis are performed in one apparatus.

The air purifying device 10 performs the ventilation operation for exchanging indoor air and outdoor air and the cleaning operation for purifying indoor air. The air purifier 10 selectively performs the ventilation operation and the clean operation according to the indoor radon concentration and indoor / outdoor air quality. For example, when the outdoor air is required to be introduced into the room through the air purifier 10 because the indoor air has a higher radon concentration than the outdoor air, indoor air is discharged outdoors and outdoor air is supplied to the room. Alternatively, it is also possible to operate to supply outdoor air to the room without discharging the indoor air to the outside. It is also possible that indoor and outdoor air inflow and outflow are blocked and the indoor air is circulated and cleaned. The operation of the air purifier 10 is based on the indoor radon concentration, and is also different depending on the contamination degree of indoor and outdoor air quality.

The display unit 15 displays environment information such as pest contamination degree information, external environment information and indoor environment information, and air pollution degree information such as air temperature and air temperature, in addition to the results measured by the air pollution degree measuring unit 12 and the radon concentration measured by the radon measuring unit 11 And information on the process such as purification process or pest control process, so that the user can visually recognize various information.

The display unit 15 includes an LED display unit 151 on at least a front surface or a plurality of surfaces including a front surface and a side surface of the air purifying apparatus 10 and a plurality of LEDs So that the light of the corresponding LED can be displayed externally through the LED display unit 151 as the LED emits light. That is, the LED display unit 151 serves as a screen. In addition, by combining RGB of LEDs, various colors are displayed, so that the LED display unit 151 can display the above-described information. For example, the LED display unit 151 may display a green color when the air quality is good, and a red to yellow color when the air pollution degree is high. Further, in the case where the radon concentration is high or a specific pollutant such as fine dust or pollen is detected, it may be displayed in a predetermined color such as purple or pink. However, the present invention is not limited thereto, and the entire LED display unit 151 may be formed of a plurality of LEDs. Alternatively, the LED display unit 151 may be configured to include a plurality of LEDs 511 and 512, and to light a specific LED 512 partially having a predetermined color and brightness.

In addition to the LED display unit 151, the display unit 15 may include a display panel unit 152 such as a button for displaying various information on the front or top surface or a liquid crystal display window. In addition, an operation panel unit 153 including a plurality of buttons may be provided on the upper surface thereof so that the user can operate the apparatus.

However, the present invention is not limited to the drawings, and the position, configuration, size, and the like of the display unit 15 can be substantially diversely changed. The air purifier 10 may be configured to not only visually display information on the display unit 15 but also to generate a predetermined notification or alert when the user needs to be notified.

The input unit 16 allows the user to input the operation of the air purifier 10 and may include various buttons and may include the operation panel unit 153 described above. However, the input unit 16 can also be changed in various ways other than the operation panel unit 153. [

The air purifier 10 can be operated directly by the user through the input unit 16 or can be operated from a remote place by a user using a mobile communication terminal such as a smart phone or a tablet PC or a terminal including a PC. For this purpose, the air purifier 10 may be configured to be able to communicate with the user's terminal. Communication with such a terminal can be performed through the communication unit 131 of the control unit 13, which will be described later.

The control unit 13 is provided with a data processing unit 132 for converging and processing the resultant data measured by the radon measuring unit 11 and the air pollution measuring unit 12 and a communication unit for communicating with the radon measuring unit 11 or various sensors, And a communication unit 131 for making the operation of the air purifier 10 operable. In addition, the display unit 15 may include a display operation unit 133 for operating the display unit 15. The display operation unit 133 displays various information related to the operation of the air purifier 10 including the results measured by the radon measuring unit 11 and the air pollution degree measuring unit 12 in accordance with the color, And controls operations such as coloring and lighting in the display panel unit 152. [0052]

The air quality of each space such as a bathroom, a bedroom, a room, a kitchen, a living room, and a warehouse varies depending on the type of indoor space in which the user lives, and the air quality management method in each space is changed. Also, the air quality of the same space varies depending on the presence or absence of occupants or the number of occupants, and the management method should be changed accordingly. In addition, the air quality varies with time, season, and outside weather for the same space, and air quality management methods should be changed accordingly. Therefore, it is necessary to manage the air quality and construct the operating system by differentiating according to various factors considering various factors such as the type and size of the space, the presence or absence of occupants, the number of occupants, time, season and weather. In addition, air quality is managed by considering outdoor air quality and radon concentration, not merely considering indoor air quality. For example, if the outdoor air quality is worse than a certain level, the air purifier can be operated to block the inflow of outdoor air even if the indoor air quality is good. Alternatively, when the outdoor air quality is worse than the indoor air quality or is worse than a certain level, it is possible to shut off the indoor air exchange. If the indoor radon concentration is high, it is also possible to perform the ventilation in preference to the indoor / outdoor air quality values.

On the other hand, the indoor radon concentration varies with the day, and the basic concentration differs depending on the area where the user is located or the type of housing. In this embodiment, the basic radon concentration at the position where the user is located is measured, and the operation of the air purifier 10 is controlled by this initial value. When the air purifier 10 is operated according to the same reference radon concentration, the air purifier 10 relatively frequently operates at a high radon concentration. However, too frequent operation of the air purifier 10 may be effective in lowering the indoor radon concentration, but may be disadvantageous in terms of energy efficiency and management aspects, the life of the air purifier 10, and maintenance. Therefore, it is necessary to adjust the threshold value for operation of the air purifier 10 according to the initial value of the radon concentration.

The control unit 13 receives the initial value of the radon concentration (S11). Here, the initial value of the radon concentration may be a value measured by the radon measuring unit 11 after the air purifier 10 is installed. Alternatively, it is possible for the user to directly input the initial value of the radon concentration.

Then, the operation threshold value for the air purifier 10 to be operated is set according to the inputted initial value (S12). That is, in the region where the initial value of the radon concentration is high, the operating condition of the air purifier 10 can be relatively relaxed by setting the operation threshold value higher than the predetermined reference value of the radon concentration. Conversely, in regions where the initial value of the radon concentration is low, the operating threshold value is set lower than the allowable reference value so that the air cleaner 10 can operate more sensitively to the radon concentration.

Of course, the user may input the initial value of the radon concentration according to his / her needs as well as the initial value according to environmental factors such as the type of indoor space, presence or absence of occupants, number of occupants, time zone, It is possible to adjust the operation threshold value of the air purifying device 10. In addition, the indoor unit is composed of a plurality of spaces. In the control unit 13, it is also possible to set different initial values for the respective spaces so that the air purifier 10 operates at different threshold values.

After the operation threshold value is set as described above (S12), the radon concentration measuring unit 11 measures the radon concentration (S13), and the air pollution degree measuring unit 12 measures the pollution degree of the indoor / outdoor air quality (S14). The operation of the air purifier 10 is controlled using the measured result (S15).

According to these embodiments, the operating threshold of the air purifier 10 can be adjusted according to the initial value of the radon concentration according to the user's position while satisfying the requirements of the existing ventilation system. In addition, indoor air quality can be effectively managed by controlling the air purifier 10 according to not only the concentration of radon but also the information on indoor air pollution degree and outdoor air pollution degree. In addition, it is possible to measure pollution degree and radon concentration in a plurality of spaces at a remote place, and to manage the air quality by using it. Radon concentration and indoor air quality can be managed by taking into account various environmental factors such as the size and type of space, the presence or absence of occupants, the number of occupants, season, time, and weather. Further, the air quality is managed according to the environmental factors or according to the request of the user, so that a more pleasant environment can be maintained. In addition, air quality can be managed more scientifically by measuring and evaluating by sensors, and using basic data based on data provided from outside. In addition, by providing various data including the measured result and information for controlling the air purifier 10 to the user, more effective air quality management can be provided, and communication with the customer can be performed to improve the satisfaction.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments and equivalents to the claims are within the scope of the following claims.

10: air purifier
11: Radon measuring section
12: air pollution degree measuring section
121: outdoor air quality measurement unit
122: indoor air quality measurement unit
123: ON / Humidity sensor
124: Pest pollution degree sensing unit
13:
131: communication unit
132:
14:
141: Radon removal
142:
15:
151: LED indicator
511, 512: LED
152: display panel section
153: Operation panel section
16:
17: Integrated control platform
171: Integrated DB
172: Server system

Claims (26)

A radon measuring unit for measuring the indoor radon concentration;
An air pollution degree measuring unit for measuring indoor and outdoor air quality;
A purifier for purifying indoor air; And
A control unit for controlling the operation of the purifier by using the results measured by the radon measuring unit and the air pollution degree measuring unit;
Lt; / RTI >
Wherein the control unit measures an initial value of the radon concentration at a position where the user is located and sets a threshold value for controlling the operation of the purifier by the initial value.
The method according to claim 1,
Wherein the control unit controls the operation of the purifier by using environmental factors including the type and size of the indoor space, the occupant presence, the season, the time, and the weather.
The method according to claim 1,
Wherein the control unit sets the threshold value to be higher than the radon concentration pollution allowable reference value when the initial value is high and sets the threshold value to be lower than the reference value when the initial value is low.
The method according to claim 1,
Wherein the initial value is measured by the radon measuring unit or directly input by a user.
The method according to claim 1,
Wherein the room comprises a plurality of spaces,
Wherein the controller sets the initial values differently for the plurality of spaces.
The method according to claim 1,
Wherein the initial value is set differently according to environmental factors including the type and size of the indoor space, the presence or absence of occupants, the season, the time, and the weather.
The method according to claim 1,
Wherein the radon measuring unit is provided in the air purifier or separately in the room.
8. The method of claim 7,
Wherein the room comprises a plurality of spaces, and the radon measuring unit includes one or a plurality of the radon measuring units.
8. The method of claim 7,
Wherein the radon measuring unit further comprises a communication unit for transmitting the measurement result from the radon measuring unit to the control unit.
The method according to claim 1,
Wherein the purifying unit includes a filter unit including a radon removing unit for removing radon from indoor air and a plurality of filters for removing contaminants from the room air.
11. The method of claim 10,
Wherein the radon eliminating unit is provided in the air purifier or formed as a separate entity.
The method according to claim 1,
Wherein the air pollution degree measuring unit is provided in at least one position in the air purifier or in the room.
13. The method of claim 12,
Wherein the air pollution degree measuring unit includes an outdoor air quality measuring unit for measuring outdoor air quality,
The outdoor air quality measurement unit may include one or more sensors for measuring the concentration of air pollutants in the outdoor air, data provided by the National Air Pollution Information Management System (NAMIS), air pollution related data provided by the Meteorological Agency or local governments Containing air purifier.
The method according to claim 1,
Wherein the control unit is provided with a communication unit for communication with an integrated control platform provided externally,
The communication unit comprising:
And transmits operation information including the pollution degree information including the measured result of the air pollution degree and the operation information of the purification unit, and receives control information for controlling the purification unit.
The method according to claim 1,
The control unit is provided with a communication unit for communication with a smart phone, a tablet PC, or a PC including a PC,
The communication unit comprising:
Wherein the control unit transmits operation information including the pollution degree information including the measurement result of the air pollution degree and the radon measurement unit and the operation information of the purification unit, Device.
A radon measuring unit for measuring the indoor radon concentration;
An air pollution degree measuring unit for measuring indoor and outdoor air quality;
A purifier for purifying indoor air;
A display unit for visually displaying information to a user; And
A controller for controlling the operation of the purifier and the operation of the display unit using at least one of the results measured by the radon measuring unit and the air pollution degree measuring unit;
Lt; / RTI >
Wherein the control unit measures an initial value of the radon concentration at a position where the user is located and sets a threshold value for controlling the operation of the purifier by the initial value.
17. The method of claim 16,
Wherein the control unit further uses environmental factors including the type and size of the indoor space, the presence of occupants, the season, the time, and the weather.
17. The method of claim 16,
Wherein the control unit sets the threshold value to be higher than the radon concentration pollution allowable reference value when the initial value is high and sets the threshold value to be lower than the reference value when the initial value is low.
17. The method of claim 16,
Wherein the display unit visually displays the results measured by the radon measuring unit and the air pollution measuring unit and the operation information of the purifying unit.
20. The method of claim 19,
Wherein the input unit is provided to allow the user to input information including the initial value or to input information for controlling the operation.
Setting an initial value of a radon concentration at a position where the air purification apparatus is located;
Setting a threshold for operation of the air purifier according to the initial value;
Measuring the concentration of radon in the indoor air;
Measuring indoor and outdoor air pollution; And
Operating the air purifier according to the radon concentration and the air pollution degree measurement result;
And a control unit for controlling the air purifying device.
22. The method of claim 21,
The operating step of the air purifying device includes:
And controlling the operation of the air purifier by using the result of at least one of the measured radon concentration and the air pollution degree.
22. The method of claim 21,
Wherein the setting of the threshold value comprises setting the threshold value higher than the radon concentration pollution allowable reference value when the initial value is high and setting the threshold value lower than the reference value when the initial value is low, / RTI >
22. The method of claim 21,
Wherein the setting of the initial value is measured by the radon measuring unit or directly input by a user.
22. The method of claim 21,
Wherein the room comprises a plurality of spaces,
Wherein the setting of the threshold value sets the initial values for the plurality of spaces to be different from each other or sets the threshold value for the plurality of spaces to be different from each other.
22. The method of claim 21,
Wherein the step of setting the threshold value is set differently according to environmental factors including the type and size of the indoor space, the presence or absence of occupants, the season, the time, and the weather.

Images