KR102364961B1 - Air purifier - Google Patents

Abstract

The present invention is provided in a main body, a sensing unit for sensing indoor air pollution level and carbon dioxide concentration, coupled to the inside of the main body, and is provided to suck indoor or outdoor air, and to be supplied along a first supply path and a second supply path, respectively Indoor air pollution degree data and carbon dioxide concentration data from an air supply unit, a filter unit provided to purify indoor or outdoor air supplied to the interior of the main body through the first supply path and the second supply path, and the sensing unit is received and compared with preset reference air pollution level data and reference carbon dioxide concentration data, and when it is determined that the indoor air carbon dioxide concentration data exceeds the reference carbon dioxide concentration data, outdoor air is selectively supplied along the second supply path It includes a control unit to control so as to be.

Description

Air purifier {Air purifier}

The present invention relates to an air purifier, and more particularly, to an air purifier that not only maintains a comfortable indoor environment according to changes in outdoor air and indoor environment, but also prevents the spread of pollutants in the room and purifies it. .

Recently, due to the high airtightness of houses, it is easy for pollutants to stay indoors, and as a result, problems such as food house syndrome caused by volatile organic compounds and allergy symptoms caused by house dust are becoming serious. Accordingly, in order to improve the indoor air environment, A purifier or an air conditioner equipped with an air purifying function is used.

As a method of purifying indoor air, it is common to introduce pollutants into the air purifier with a blower and remove them with a filter. A review for improvement is being actively conducted.

In addition, a method for improving the indoor air environment by air flow sent from the air purifier outlet has been proposed. For example, Japanese Patent Laid-Open No. 2006-17343 discloses that purified air can be supplied in both the lateral direction and the forward direction. An air purifier capable of quickly purifying a room has been proposed.

That is, in the air cleaner described in Japanese Patent Laid-Open No. 2006-17343, since the air flow is sent in the lateral direction and the forward direction, it is easy to be affected by obstacles such as indoor furniture, and it is necessary to circulate the air sufficiently well. It is difficult, and since the airflow is sent out in the lateral direction and the forward direction, there is a possibility that the dust on the floor surface may be rolled up.

Japanese Unexamined Patent Publication No. 2006-57919 discloses that a movable louver installed in a blower is automatically swinging back and forth or left and right to change the airflow in the room, and dust and odor are detected by a sensor, thereby quickly detecting air pollution in a room. An air purifier that can do this has been proposed.

In the air purifier described in Japanese Patent Laid-Open No. 2006-57919, a louver disposed at an air outlet and operated automatically and a sensor for detecting air pollution are required. In this air purifier, the louver automatically swings. It is difficult to create the optimal airflow just by letting Since it is difficult to match the positions, it is difficult to efficiently collect dust, and also, if the wind direction is changed with a louver, the flow path width is reduced, so there is a problem that the airflow is damaged.

On the other hand, in the case of an air purifier having a general configuration, when the operation is started, the sirocco fan is rotated and air is sucked in from the inlet, and dust and/or odors (contaminants) present in the air are removed by the air filter. The air introduced into the suction flow path in the housing and dust removed by the air filter flows through the jet flow path and is sent out from the jet port to the vertical upwards into the room, and the air blown into the room is the ceiling surface of the room. , it circulates through the room and is sucked into the inlet of the air purifier.

Recently, since it is strongly required to solve the problem of indoor air pollution, there is a need to further improve the indoor air environment by using an air purifier. In addition to the technology, a number of various technologies are being considered.

However, conventional methods for quickly removing dust and/or odors (contaminants) in a room are based on conventional thinking, such as increasing the air volume of the air purifier to improve the removal rate, etc. There is a problem in that the power is increased and the noise during operation is also increased.

In addition, in the prior art, there is a problem that the circulation loss of the airflow is large and the circulation efficiency of the airflow is poor, and the improvement effect of the indoor air environment is small. If the air volume is increased, a new problem of increased noise arises.

An object of the present invention is to measure the pollution degree and carbon dioxide concentration of indoor air, compare the measured pollution degree data and carbon dioxide concentration data with preset reference pollution degree data and reference carbon dioxide concentration data, and selectively purify the outside air according to the result An object of the present invention is to provide an air purifier capable of purifying indoor air using external air and simultaneously preventing an increase in indoor carbon dioxide concentration by enabling indoor ventilation by supplying it to the room.

An air purifier according to an embodiment of the present invention is provided in a main body, a sensing unit for detecting indoor air pollution level and carbon dioxide concentration, is coupled to the inside of the main body, and sucks indoor or outdoor air, respectively, the first supply path and the second 2 From the air supply unit provided to be supplied along the supply path, the filter unit and the sensing unit provided to purify the indoor or outdoor air that passes through the first supply path and the second supply path and is supplied to the inside of the main body. The indoor air pollution level data and carbon dioxide concentration data are received and compared with preset reference air pollution level data and reference carbon dioxide concentration data, and when it is determined that the indoor air carbon dioxide concentration data exceeds the reference carbon dioxide concentration data, the second supply path is It is characterized in that it includes a control unit for selectively controlling the outdoor air to be supplied accordingly.

Here, the air supply unit follows the first and second supply paths provided in the main body and is installed in the second supply path and a blower fan provided so that indoor or outdoor air is supplied, and the supply of outdoor air is blocked. A damper for guiding as much as possible and a detection sensor installed at the inlet of the second supply path and selectively detecting the degree of contamination of the supplied outdoor air are provided.

In addition, the filter unit is installed on the first supply path, an indoor air purification filter for purifying pollutants contained in the indoor air, and an indoor air purification filter for selectively purifying pollutants contained in the outdoor air supplied as the damper is opened. An outdoor air purification filter is provided.

The control unit compares the outdoor air pollution degree data detected by the detection sensor with the indoor air pollution degree data sensed by the detection unit, and when the indoor air pollution degree data is higher than or equal to the outdoor air pollution degree data, the outdoor air It is judged that it is time to replace the purification filter.

And, when it is determined that the carbon dioxide concentration data sensed through the sensing unit exceeds the reference carbon dioxide concentration data, the control unit controls the damper to open the second supply path, and at the same time controls the damper to open the second supply path and blows the air according to the extent of the excess Controls the running speed of the fan.

In addition, the air purifier according to an embodiment of the present invention is mounted on the main body and further includes a display unit provided to display the indoor air pollution level and carbon dioxide concentration, and the control unit is configured to control the air pollution level and carbon dioxide concentration from the sensing unit. The detection information is received so that the air pollution level data and the carbon dioxide concentration data are respectively displayed on the display unit in real time.

Here, in controlling the outdoor air to be supplied along the second supply path, the control unit receives the current outdoor air pollution level data from the data storage unit in which the weather information is stored in real time and provides it to the display unit, and the indoor air pollution level data Manual control of the air supply is made through comparison with .

On the other hand, the air purifier according to another embodiment of the present invention is provided in the main body, a sensing unit for detecting the indoor ultrafine dust concentration and the gas concentration, coupled to the inside of the main body, and sucks indoor air to select a supply path An air supply unit provided to be supplied in accordance with the supply path, a filter unit provided to purify indoor air supplied to the interior of the main body through the supply path, and ultrafine dust concentration data and gas concentration data are received from the sensing unit in advance Compared with the set reference concentration data, if it is determined that any one of the concentration data exceeds the reference concentration data, the indoor air is sucked at a preset air volume according to the detection range of each of the ultrafine dust concentration data and the gas concentration data. characterized in that it controls the operation of the air supply unit, wherein when both ultrafine dust and gas are detected by the sensing unit, the control unit sucks indoor air at a larger air volume among the detected ultrafine dust concentration data and the gas concentration data Select a detection range for any one possible concentration data, and control so that indoor air is sucked at the air volume set according to the detection range.

The sensing unit detects the concentration of carbon dioxide and carbon monoxide in the room, and the control unit controls the sensing unit to selectively detect the carbon dioxide and carbon monoxide concentrations only when the detection of the ultrafine dust concentration and the gas concentration is finished, When it is determined that the concentrations of carbon dioxide and carbon monoxide exceed a preset reference concentration, exhaust of carbon dioxide and carbon monoxide is performed.

In addition, the air supply unit follows the supply path provided in the main body and is provided to supply indoor air through a blower fan installed in the exhaust path provided in the main body, a damper provided to enable the exhaust of indoor air, and the control unit. An exhaust fan that selectively operates as the damper is controlled to open is provided to guide the exhaust of carbon dioxide and carbon monoxide.

The present invention measures the pollution degree and carbon dioxide concentration of indoor air, compares the measured pollution degree data and carbon dioxide concentration data with preset reference pollution degree data and reference carbon dioxide concentration data, and selectively purifies the outdoor air according to the results to purify the indoor air By supplying to the air, it is possible to purify the indoor air using the outside air, and at the same time, it has the effect of preventing an increase in the indoor carbon dioxide concentration by enabling the indoor ventilation.

Accordingly, the present invention enables the selective supply of outdoor air by driving the air purifier without ventilation through opening of the doorway or window, thereby increasing the oxygen concentration while reducing the indoor carbon dioxide concentration. As a result, it has the effect of allowing comfortable indoor air to be maintained at all times through the selective supply of outdoor air.

In addition, the present invention receives current air pollution level data from a data storage server in which weather information is stored in real time, and when the current air pollution level data is bad, manual control is performed by the user to respond according to the pollution level of the outdoor air and has the effect of allowing indoor ventilation to be carried out.

1 is a view showing an air purifier according to an embodiment of the present invention.
2 is a view showing the flow of indoor air with respect to the air purifier according to an embodiment of the present invention.
3 is a view showing a driving end state of the air purifier according to an embodiment of the present invention.
4 is a view showing a flow of external air supply to the air purifier according to an embodiment of the present invention.
5 is a diagram showing a connection relationship between components of an air purifier according to an embodiment of the present invention.
6 is a view showing control of an air purifier according to an embodiment of the present invention.
7 is a view showing a first control of the air purifier according to another embodiment of the present invention.
8 is a view showing a second control for the air purifier according to another embodiment of the present invention.
9 is a view showing an exhaust flow of an air purifier according to another embodiment of the present invention.

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

Advantages and features of the present invention, and a method for achieving the same, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited by the embodiments disclosed below, but will be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims.

In addition, in the description of the present invention, when it is determined that related known techniques may obscure the gist of the present invention, a detailed description thereof will be omitted.

1 is a view showing an air purifier according to an embodiment of the present invention, FIG. 2 is a view showing a flow of indoor air with respect to the air purifier according to an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention It is a view showing the end state of the operation of the air purifier according to the example.

And, FIG. 4 is a view showing the flow of external air supply to the air purifier according to an embodiment of the present invention, and FIG. 5 is a diagram showing a connection relationship between components of the air purifier according to an embodiment of the present invention, 6 is a view showing control of an air purifier according to an embodiment of the present invention.

1 to 4, the air purifier according to the present embodiment is formed to control the amount of air that is purified and discharged through the lifting and lowering of the upper cover 10a (see FIG. 3). To enable ventilation, it includes a sensing unit 100 , an air supply unit 200 , a filter unit 300 , and a control unit 400 .

The sensing unit 100 is provided in the main body 10 and is provided in plurality to detect an air pollution degree, carbon dioxide concentration, etc. indicating a degree of contamination of fine dust, harmful gas, radon, etc. contained in indoor air.

Preferably, the sensing unit 100 includes a dust sensor for measuring the concentration of ultrafine dust in the air, a gas sensor for measuring the concentration of gas in the air (TVOC (Total Volatile Organic Compounds) sensor, Nox sensor, etc.), Various types of sensors capable of measuring the degree of pollution of indoor air, such as a radon sensor for measuring radon concentration, a humidity sensor for measuring humidity in the air, a temperature sensor for measuring the temperature of the air, etc. may be additionally included, It may include a carbon dioxide sensor for measuring the concentration of carbon dioxide in the indoor air.

The air supply unit 200 is coupled to the inside of the main body 10, and sucks indoor or outdoor air, respectively. The indoor air is first disposed on the lower side with respect to the center of the main body 10 as shown in the arrow direction shown in FIG. 2 . Through the supply path P1, outdoor air is provided to be supplied through the second supply path P2 connected to the outside as shown in the arrow direction shown in FIG.

The air supply unit 200 includes a blowing fan 210 , a damper 220 , and a detection sensor 230 .

The blower fan 210 is installed inside the main body 10 and follows the first supply path P1 or the second supply path P2 when driven, and is provided to supply indoor or outdoor air into the interior of the main body 10 . do.

In addition, the damper 220 is installed in the second supply path P2 and is provided to be openable and closed to guide the supply of outdoor air selectively.

The damper 220 is operated by the control unit 400 and can selectively supply outdoor air as the opening is controlled by satisfying a predetermined condition.

And, the detection sensor 230 is a configuration for detecting the degree of contamination of the selectively supplied outdoor air, and is installed at the inlet of the second supply path P2 formed at the end of the duct 12, preferably as described above. The plurality of sensors of the sensing unit 100 may be the same.

The damper 220 and the detection sensor 230 are both installed in the duct 12, and can be removed together when the duct 12 coupled to be replaced is separated, and can be moved as the duct 12 is removed. Therefore, only the purification of indoor air may be performed.

The filter unit 300 passes through the first supply path P1 and the second supply path P2 and is provided to purify indoor or outdoor air supplied into the body 10 .

To this end, the filter unit 300 includes an indoor air purification filter 310 and an outdoor air purification filter 320 respectively installed in the first supply path P1 and the second supply path P2 .

The indoor air purification filter 310 is formed in a donut shape, and as shown in FIG. 2 , as the blowing fan 210 is driven, the indoor air is supplied to the inside of the main body 10 through the first supply path P1. By allowing the air to pass through the front, it serves to purify the pollutants contained in the indoor air.

The outdoor air purifying filter 320 is disposed under the indoor air purifying filter 310, and as the blowing fan 210 is driven, the outdoor air supplied into the body 10 through the second supply path P2 is It plays a role in purifying the contained contaminants.

Although not shown in the drawings, the indoor air purification filter 310 and the outdoor air purification filter 320 include a prefilter, a carbon filter, a hepa filter, and a photo-catalyzer. filter) is sequentially arranged, and removes harmful substances such as nitrogen oxides and volatile organic chemicals and fine dust contained in indoor or outdoor air to be supplied indoors.

Here, the pre-filter protects a high-performance filter such as a heta filter and filters out large dust, and the carbon filter is made of a carbonaceous material and has strong adsorption power, so it is easy to purify the air, especially to remove allergen-causing substances. Allow harmful gases and fine dust to be absorbed. The HEPA filter absorbs unpleasant odors while removing particulates and bacteria in the air, and removes 99% of dust less than 0.3 micrometers. Preferably, use a HEPA filter with a grade of U13 or higher. The photocatalytic filter receives light as an energy source and promotes chemical reaction to decompose bacteria, odors and harmful substances.

The pre-filter, carbon filter, HEPA filter, and photocatalytic filter, that is, the indoor air purification filter 310 and the outdoor air purification filter 320 that perform the above functions, are installed inside the main body 10, It is preferable to install each detachably by a member (not shown), and accordingly, when a replacement cycle for the filter unit 300 arrives, easy replacement can be made.

The control unit 400 receives the indoor air pollution level data and carbon dioxide concentration data from the sensing unit 100, compares it with preset reference air pollution level data and reference carbon dioxide concentration data, and when it is determined that the reference carbon dioxide concentration data exceeds the reference carbon dioxide concentration data, the second supply It is controlled so that outdoor air is selectively supplied along the path P2.

That is, the control unit 400 controls indoor air sensed through a dust sensor for measuring the concentration of ultrafine dust in the air, and a gas sensor for measuring the concentration of gas in the air (TVOC (Total Volatile Organic Compounds) sensor, Nox sensor, etc.) The standard air pollution data for which the pollution level data is preset, that is, the standard air pollution level data set such that the concentration of NOx exceeds 60 ppb and the TVOC exceeds 500 ug/m ³ while the ultrafine dust exceeds 2.5 PM (Particulate matter) If it is determined that is out of , the air cleaning function is performed by circulating and purifying indoor air along the first supply path P1 through the driving of the blowing fan 210 .

At this time, if the concentration of carbon dioxide contained in the indoor air exceeds the reference carbon dioxide concentration data, more specifically, 800 ppm (based on the Korea Passive Building Association), it is determined that indoor air purification and indoor ventilation are necessary, and the second supply route By controlling the operation of the damper 220 for opening P2, outdoor air is supplied to the inside.

Here, the control unit 400 compares the outdoor air pollution degree data detected by the detection sensor 230, and the indoor air pollution degree data detected by the detection unit 100 is higher than or equal to the outdoor air pollution degree data of the outdoor air. , to determine the replacement time of the outdoor air purification filter 320 .

In other words, in the prior art, in determining the replacement time of the filter, the user is informed of the replacement time when the filter is used for the corresponding time based on between approximately 3000 hours and 5000 hours. Since the contamination of the filter may be relatively small and the contamination of the filter may be relatively large even if it is used for less than the corresponding time, in this embodiment, when the outdoor air is supplied through the second supply path P2, if the supplied outdoor air is When the outdoor air pollution level data of the air is higher than the indoor air pollution level data, it is determined that the outdoor air purification filter 320, which purifies the supplied outdoor air, does not perform its function, and determines that replacement is required. It is possible to effectively determine the replacement time for the outdoor air purification filter 320 irrespective of the period of use.

In addition, when it is determined that the carbon dioxide concentration data sensed by the sensing unit 100 abruptly increases to exceed the reference carbon dioxide concentration data corresponding to 800 ppm, the control unit 400 controls the air volume of the blowing fan 210 to control the air volume. The drive speed can be controlled differently.

In more detail, the control unit 400 measures the carbon dioxide concentration data through the sensing unit 100 , and when it is sensed that the degree is rapidly increased for a short time, the driving speed of the blowing fan 100 is controlled differently. However, if, for example, the concentration of harmful substances such as ultrafine dust contained in the indoor air and the concentration of carbon dioxide in the indoor air through the sensing unit 100 rises sharply above the reference data, indoor air is purged and indoor ventilation is performed. For this, the driving speed of the blowing fan 210 is controlled to be the maximum (MAX).

On the other hand, the air purifier according to the present embodiment further includes a display unit 500, which, although not shown in the drawing, is mounted to be exposed on the front of the main body 10, and the control unit 400 By receiving the sensing information on the air pollution level and the carbon dioxide concentration from the sensing unit 100 and displaying the data on the display unit 500 in real time, the user can easily understand the condition of the indoor air. .

Here, in controlling the outdoor air to be supplied along the second supply path P2, the control unit 400 receives the current outdoor air pollution level data from the data storage unit M in which weather information is stored in real time as shown in FIG. 5 . It is received and provided to the display unit 500, and the user can manually control the blowing fan 210 through the input unit I through the comparison of the air pollution level data contained in the indoor air and the current outdoor air pollution level data. there is.

That is, the control unit 400 allows the data storage unit M and the display unit 500 to exchange information with each other through wireless communication such as Wi-Fi, and the indoor air pollution degree data and carbon dioxide concentration data are preset standards. Even if the air pollution data or the reference carbon dioxide concentration data exceeds or reaches a similar level, when it is determined that the current outdoor air pollution level data level is bad as a result of checking the information displayed on the display unit 500, the damper through the input unit (I) Manual control is made to selectively adjust the opening range of 220 .

The operation of this manual control is, for example, if it is determined that the outdoor air pollution degree data corresponds to a bad state, regardless of whether the indoor air pollution degree data and carbon dioxide concentration data exceed preset reference air pollution degree data and reference carbon dioxide concentration data, Alarm warnings and messages such as voice and electronic sound are first delivered to the user through the display unit 500, and at this time, the open range of the damper 220 or the blowing fan 210 by manipulating the input unit I at the user's discretion. By changing the driving speed, driving time, etc., of indoor air, external air is not unconditionally supplied according to the degree of pollution and carbon dioxide concentration in the indoor air, but manual control according to the user's decision according to the situation can be made.

As shown in FIG. 6 , the control flow of the operation will be described based on the configuration of the air purifier according to the present embodiment described above.

First, a dust sensor for measuring the concentration of ultrafine dust in the air, a gas sensor for measuring the concentration of gas in the air (TVOC (Total Volatile Organic Compounds) sensor, Nox sensor, etc.) The indoor air pollution level is detected through the sensing unit 100 including various types of sensors (S100).

Thereafter, if it is determined that the indoor air pollution level data, that is, the ultrafine dust concentration, the NOx concentration, and the TVOC concentration, exceeds the above-described reference air pollution level data according to the detected result, the first supply path P1 through the control unit 400 The blowing fan 210 is driven so that the indoor air can be circulated and purified according to (S200).

At the same time, the carbon dioxide concentration is sensed through the sensing unit 100, and when the carbon dioxide concentration exceeds the reference carbon dioxide concentration data, that is, 800 ppm, it is determined that indoor ventilation is necessary, along with the first supply path P1, the control unit By controlling the operation of the damper 220 through 400 to open the second supply path P2, at the same time as the indoor air is purified, the outdoor air is selectively purified and supplied to the inside (S300).

At this time, prior to supplying the outdoor air to the inside, the current outdoor air pollution level is received and compared with the indoor air pollution level (S400).

Here, the current outdoor air pollution level may be transmitted from the data storage unit M in which weather information is stored in real time through wireless communication such as Wi-Fi, and control according to the situation may be performed through the control unit 400 .

That is, if it is determined that the current outdoor air pollution level data received from the data storage unit M is lower than the indoor air pollution level data, the control unit 400 opens the damper 220, and accordingly, the outdoor air flows through the second supply path ( By allowing it to be supplied through P2), indoor ventilation is made (S410).

In addition, if it is determined that the current outdoor air pollution level data received from the data storage unit M is higher than the indoor air pollution level data, the control unit 400 first transmits the corresponding information to the display unit 500, an alarm such as a voice, an electronic sound, etc. The user is notified through warnings and messages (S420).

Subsequently, after the user reads the corresponding information through the display unit 500 , the user operates manual control, that is, the input unit I, to operate the open range of the damper 220 or the driving speed of the blower fan 210 , the driving time, etc. By changing , it is possible to ventilate the room through the user's manual control according to the situation, rather than unconditionally supplying external air according to the pollution degree and carbon dioxide concentration of the indoor air (S430).

As a result of measuring the carbon dioxide concentration through the continuous sensing of the sensing unit 100 during indoor ventilation as described above, when the measured data value falls below the reference carbon dioxide concentration data, the damper 220 through the control unit 400 ) to control the closing of the second supply path P2, air purification according to the degree of pollution of indoor air through only the first supply path P can be achieved.

Hereinafter, FIG. 7 is a view showing a first control for an air purifier according to another embodiment of the present invention, FIG. 8 is a view showing a second control for an air purifier according to another embodiment of the present invention, and FIG. 9 is a view showing an exhaust flow of an air purifier according to another embodiment of the present invention.

The air purifier according to the present embodiment is for selectively purifying indoor air and exhausting harmful gases by measuring the concentrations of ultrafine dust and gases, that is, carbon dioxide and carbon monoxide contained in indoor air, and the overall configuration is the same as in the above-described embodiment, and may further include an exhaust fan 240 as shown in FIG. 9 .

Based on such a configuration, the first control for the air purifier according to the present embodiment, that is, the air cleaning mode, will be sequentially described with reference to FIG. 7 as follows.

First, the concentration of ultrafine dust and the concentration of gas are simultaneously sensed using the sensing unit 100 (S100a, S100b).

At this time, when it is determined that both the ultrafine dust and the gas are detected by the sensing unit 100 above the reference concentration data, the control unit 400 adjusts the air volume preset according to the respective detection ranges of the ultrafine dust concentration data and the gas concentration. Control the blowing fan 210 to be driven so that the indoor air is sucked (S200).

That is, in the case of ultrafine dust, if the detected concentration range is 0 ~ 15ug/m ³ , the blower fan 210 is set to drive at 100 ~ 150 CMH (Cubic Meter per Hour), and 16 ~ 35ug/m ³ If, 200 ~ 300 CMH, 36 ~ 75ug/m ³ , 310 ~ 400 CMH, 75ug/m ³ or more, the blower fan 210 is preset to drive at 600 ~ 800 CMH.

In addition, in the case of the gas concentration, if the concentration of Nox is 60 ppm or more, 310 to 400 CMH, and if the concentration of TVOC is 500 ug/m ³ or more, the blower fan 210 is preset to be driven at 310 to 400 CMH.

Accordingly, when receiving the concentration data of ultrafine dust and gas from the sensing unit 100 , the control unit 400 may control the blowing fan 210 to be driven to correspond to the sensing range.

At this time, if both ultrafine dust and gas are detected through the sensing unit 100, the control unit 400 may inhale indoor air at a larger air volume among the detected ultrafine dust concentration data and the gas concentration data. By selecting a detection range for any one concentration data, the operation of the blower fan 210 is controlled so that indoor air is sucked at the corresponding air volume.

For example, when ultrafine dust is detected in the range between 16 and 35 ug/m ³ and NOx is detected as 60 or higher, the blower fan 210 operates at 200 to 300 CMH in the detection range of 16 to 35 ug/m ³ . is set to drive, and in the detection range where NOx is 60 or more, the blower fan 210 is set to drive at 310 ~ 400 CMH. In this case, select the detection range for gas (NOx) and blow at 310 ~ 400 CMH The fan 210 is controlled to be driven.

In addition, if ultrafine dust is detected in a range of 75 ug/m ³ or more, but TVOC is detected as 500 or more, the blower fan 210 is set to operate at 600 ~ 800 CMH in the 75 ug/m ³ detection range. In the detection range where TVOC is 500 or more, the blowing fan 210 is set to be driven at 310 ~ 400 CMH. control to run.

In this way, after the blowing fan 210 is driven, the control unit 400 detects the concentration of ultrafine dust contained in the indoor air and the gas concentration so that the ultrafine dust exceeds 2.5 PM (Particulate matter), It is determined whether the concentration exceeds 60 ppb, and the TVOC exceeds 500 ug/m ³ (S300).

At this time, when it is determined that the ultrafine dust concentration and the gas concentration do not exceed the reference concentration, the blower fan ( 210) is driven, and then the air cleaning mode is terminated (S400).

Accordingly, in the present embodiment, when the concentration of ultrafine dust and gas is detected, the blowing fan 210 is controlled to be driven in response to a detection range corresponding to a more powerful air volume, and even when the concentration is lower than the reference concentration, the blowing fan ( 210), by allowing the air cleaning mode to end after the additional operation, it is possible to efficiently purify indoor air.

On the other hand, the sensing unit 100 according to the present embodiment may also detect the concentrations of carbon dioxide and carbon monoxide contained in the indoor air, and the detection of such carbon dioxide and carbon monoxide is a state in which the detection of ultrafine dust and gas is finished. can be done in

In more detail, the control unit 400 measures the concentrations of carbon dioxide and carbon monoxide at the time when the air cleaning mode for indoor air is terminated as described above with reference to FIG. 7 to operate the second control, that is, the exhaust mode. exhaust can occur.

This will be sequentially described with reference to FIG. 8 as follows.

In a state in which the above-described air cleaning mode is terminated, the sensing unit 100 detects concentrations of carbon dioxide and carbon monoxide contained in indoor air (S100).

At this time, when the carbon dioxide concentration exceeds the reference concentration, that is, 800 ppm, and it is determined that carbon monoxide is detected (S200), the damper 220 is controlled to be opened (S300).

Then, the exhaust fan 240 is controlled to be driven for a preset time (S400), so that carbon dioxide and carbon monoxide are sucked into the lower part of the body 10, and accordingly, it follows the exhaust path P2 and the carbon dioxide and carbon monoxide are discharged to the outside. to be expelled.

In other words, since carbon dioxide and carbon monoxide are heavier than air, they sink to the ground. After the air cleaning mode ends, when carbon dioxide and carbon monoxide are detected through the sensing unit 100 in the exhaust mode, the damper 220 and the exhaust fan By allowing the carbon dioxide and carbon monoxide to be discharged to the outside along the exhaust path P2 inside the main body 10 through the sequential operation of step 240 , the harmful gas can be removed even after the air cleaning mode ends.

The present invention measures the pollution degree and carbon dioxide concentration of indoor air, compares the measured pollution degree data and carbon dioxide concentration data with preset reference pollution degree data and reference carbon dioxide concentration data, and selectively purifies the outdoor air according to the results to purify the indoor air By supplying to the air, it is possible to purify the indoor air using the outside air, and at the same time, it has the effect of preventing an increase in the indoor carbon dioxide concentration by enabling the indoor ventilation.

Accordingly, the present invention enables the selective supply of outdoor air by driving the air purifier without ventilation through opening of the doorway or window, thereby increasing the oxygen concentration while reducing the indoor carbon dioxide concentration. As a result, it has the effect of allowing comfortable indoor air to be maintained at all times through the selective supply of outdoor air.

In addition, the present invention receives current air pollution level data from a data storage server in which weather information is stored in real time, and when the current air pollution level data is bad, manual control is performed by the user to respond according to the pollution level of the outdoor air and has the effect of allowing indoor ventilation to be carried out.

Although the present invention has been described with reference to the embodiment(s) shown in the drawings, this is only exemplary, and various modifications may be made therefrom by those skilled in the art, and the above-described embodiment It will be understood that all or part of (s) may optionally be combined. Accordingly, the true technical protection scope of the present invention should be defined by the technical spirit of the appended claims.

10: body 100: sensing unit
200: air supply 210: blow fan
220: damper 230: detection sensor
240: exhaust fan 300: filter unit
310: indoor air purification filter 320: outdoor air purification filter
400: control unit 500: display unit
I: input unit P1: first supply path, supply path
P2: second supply path, exhaust path M: data storage unit

Claims (10)

a sensing unit provided in the body and sensing indoor air pollution level and carbon dioxide concentration;
an air supply unit coupled to the inside of the main body and provided to suck indoor or outdoor air and to be supplied along a first supply path and a second supply path, respectively;
a filter unit passing through the first supply path and the second supply path and provided to purify indoor or outdoor air supplied to the inside of the main body; and
When it is determined that the indoor air pollution level data and carbon dioxide concentration data are received from the sensing unit and compared with preset reference air pollution level data and reference carbon dioxide concentration data, and it is determined that the indoor air carbon dioxide concentration data exceeds the reference carbon dioxide concentration data, the second 2 A control unit that selectively controls outdoor air to be supplied along the supply path;
The air supply unit,
It is installed inside the main body, and indoor or outdoor air is supplied along the first supply path and the second supply path provided in the main body, so that the air flow of the indoor air or outdoor air is controlled above the main body or above the main body. Blowing fan arranged horizontally with the bottom surface to guide to the outer periphery;
a duct detachably connected to the body and including an inlet of the second supply path at an end thereof;
a damper installed inside the second supply path and guiding the supply of outdoor air to be blocked; and
and a detection sensor installed at the inlet of the second supply path and configured to detect a degree of contamination of the selectively supplied outdoor air;
The first supply path and the second supply path communicate with each other inside the main body, and through the air flow generated by the blowing fan, the indoor air and the outdoor air are passed to the first supply path and the second supply path. are all supplied,
The control unit is
When it is determined that the carbon dioxide concentration data sensed through the sensing unit exceeds the reference carbon dioxide concentration data, the damper is controlled to open the second supply path and, at the same time, the driving speed of the blowing fan is adjusted according to the extent to which it is exceeded. characterized by controlling
The filter unit,
a donut-shaped indoor air purifying filter installed on the first supply path and purifying pollutants contained in the indoor air; and
and an outdoor air purification filter for purifying contaminants contained in outdoor air selectively supplied as the damper is opened;
The outdoor air purifying filter is disposed perpendicular to the indoor air purifying filter at a lower end of the indoor air purifying filter to connect a lower portion of the indoor air purifying filter,
An air purifier, characterized in that the air introduced into the first supply path and the second supply path pass through both.

delete delete The method of claim 1,
The control unit is
The outdoor air pollution degree data detected by the detection sensor is compared with the indoor air pollution degree data detected by the detection unit. An air purifier characterized by judging by the time.
delete The method of claim 1,
It is mounted on the main body, further comprising a display unit provided to display the indoor air pollution level and carbon dioxide concentration,
The control unit is
Air purifier, characterized in that by receiving the detection information on the air pollution degree and the carbon dioxide concentration from the sensing unit to display the air pollution degree data and the carbon dioxide concentration data in real time, respectively, on the display unit.
7. The method of claim 6,
The control unit is
In controlling the supply of outdoor air along the second supply path, the current outdoor air pollution level data is received from the data storage unit in which weather information is stored in real time and provided to the display unit, and through comparison with indoor air pollution level data An air purifier, characterized in that manual control of the air supply unit is made.
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