KR20210128081A - Apparatus and method for measuring indoor air pollution - Google Patents

Abstract

A measuring device is provided. The measuring device includes: a communication unit for obtaining first measurement information of indoor air; an analysis unit analyzing the first measurement information; and an execution unit which executes a reduction policy for reducing indoor air pollution including the indoor air pollution according to an analysis result of the analysis unit. Accordingly, indoor air quality and outdoor air quality can be compared on one screen through a terminal.

Description

Indoor air pollution level measuring device and measuring method

The present invention relates to an apparatus and method for measuring the pollution degree of indoor air.

In order to cope with air pollution, the number of air purifiers installed indoors is increasing. However, the sealed indoor air may be rather polluted due to carbon dioxide generated from the air purifier itself. If you open a window to mitigate indoor pollution, fine dust from outside may enter the room.

Accordingly, the user may find it ambiguous as to when to open the window and when to activate the air purifier.

Currently, there is a system that informs the air quality outside. However, the system for monitoring indoor air quality is insufficient.

In Korea Patent Publication No. 1625133, indoor pollutant measurement values measured by an air quality measuring device that measures the air quality of indoor living spaces in real time are received through a wireless communication network, and managers and users can monitor indoor air quality in real time to efficiently monitor indoor air quality. An indoor air quality monitoring system that can manage

Korean Patent Publication No. 1625133

An object of the present invention is to provide a measuring device and a measuring method for measuring the quality or pollution degree of indoor air and reducing the indoor pollution degree.

The measuring apparatus of the present invention includes: a communication unit for obtaining first measurement information of indoor air; an analysis unit analyzing the first measurement information; and an execution unit executing a reduction policy for reducing the indoor pollution level including the indoor air pollution level according to the analysis result of the analysis unit.

The analyzer may analyze the indoor pollution level by using the first measurement information. When the indoor pollution degree satisfies a set value, the analyzer may generate an event for reducing the indoor pollution degree. The execution unit may execute the event.

A measuring device of the present invention includes: a collecting unit for collecting first measurement information of indoor air from an indoor measuring device or a terminal, and collecting second measuring information of outdoor air from an outdoor measuring device; a storage unit for synchronizing and storing the first measurement information and the second measurement information; and a providing unit that analyzes the first measurement information and the second measurement information synchronized with each other by region, location, and time, and provides the analysis to the terminal or the second server.

The measuring method of the present invention includes: acquiring first measurement information of indoor air from an indoor measuring device, and acquiring second measurement information of outdoor air from a server; analyzing whether the indoor pollution level analyzed from the first measurement information satisfies a setting value received from the server, or analyzing whether a difference value between the first measurement information and the second measurement information satisfies a setting range; It may include; executing an event to reduce the indoor pollution level according to the analysis result. In the step of executing the event, the first measurement information and the second measurement information are displayed together, or a reduction message guiding the operation method of the ventilation means for reducing the indoor pollution level is displayed, or ventilation to reduce the indoor pollution level You can control the means.

According to the present invention, ventilation of the indoor air can be performed only when the indoor air is better than the outdoor air.

According to the present invention, indoor air quality can be displayed with an intuitive and visual design.

According to the present invention, indoor air quality and outdoor air quality can be compared on one screen through a terminal.

According to the present invention, various kinds of prediction data related to air quality may be prepared through the accumulation of indoor air quality and real-time data of indoor air quality.

1 is a schematic diagram showing a measuring device of the present invention.
2 is a schematic diagram showing another measuring device of the present invention.
3 is a graph illustrating first statistical information.
4 is a graph showing second statistical information.
5 is a schematic diagram illustrating menu information displayed on a terminal.
6 is a schematic diagram showing a measuring method of the present invention.
7 is a diagram illustrating a computing device according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

In the present specification, duplicate descriptions of the same components will be omitted.

Also, in this specification, when it is mentioned that a certain element is 'connected' or 'connected' to another element, it may be directly connected or connected to the other element, but another element in the middle. It should be understood that there may be On the other hand, in this specification, when it is mentioned that a certain element is 'directly connected' or 'directly connected' to another element, it should be understood that the other element does not exist in the middle.

In addition, the terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention.

Also, in this specification, the singular expression may include the plural expression unless the context clearly dictates otherwise.

Also in this specification, terms such as 'include' or 'have' are only intended to designate that the features, numbers, steps, operations, components, parts, or combinations thereof described in the specification exist, and one or more It should be understood that the existence or addition of other features, numbers, steps, operations, components, parts or combinations thereof is not precluded in advance.

Also in this specification, the term 'and/or' includes a combination of a plurality of listed items or any of a plurality of listed items. In this specification, 'A or B' may include 'A', 'B', or 'both A and B'.

Also, in this specification, detailed descriptions of well-known functions and configurations that may obscure the gist of the present invention will be omitted.

1 is a schematic diagram showing a measuring device of the present invention.

The measuring device shown in FIG. 1 may include a ventilation means 90 , an indoor measuring device 10 , an outdoor measuring device 20 , a server 70 , and a terminal 100 .

The ventilation means 90 may include a door, a window for ventilating the indoor air, an air purifier for purifying the indoor air, and the like. An indoor space may represent a space closed on all sides by a partition wall and a ceiling, such as a room or the inside of a building. Indoor air corresponding to the space in which the user is active may be polluted by carbon dioxide, fine dust, etc. continuously emitted by the user.

The indoor measuring device 10 may measure indoor air quality or measure the pollution degree of indoor air. Practically, the indoor measuring device 10 may measure and generate first measurement information indicating the concentration of various pollutants that reduce indoor air quality or increase indoor air pollution degree. The indoor measuring device 10 may include an ultrafine dust sensor, an ultrafine dust sensor, a fine dust sensor, a volatile organic compound measurement sensor, a temperature sensor, a humidity sensor, a carbon dioxide sensor, and the like.

The outdoor measuring device 20 may measure outdoor air quality or measure the pollution degree of outdoor air. Practically, the outdoor measuring device 20 may measure and generate second measurement information indicating the concentration of various pollutants that reduce the outdoor air quality or increase the pollution degree of the outdoor air. The outdoor measuring device 20 may include an ultrafine dust sensor, an ultrafine dust sensor, a fine dust sensor, a volatile organic compound measurement sensor, a temperature sensor, a humidity sensor, a carbon dioxide sensor, an ozone sensor, a carbon dioxide sensor, and the like.

The server 70 may accumulate and store the first measurement information measured by the indoor meter 10 and the second measurement information measured by the outdoor meter 20 , and may form big data on air quality.

The terminal 100 may display the first measurement information measured by the indoor measuring device 10 to the user or the second measurement information measured by the outdoor measuring device 20 to the user.

The measuring apparatus of the present invention may include a communication unit 110 , an analysis unit 130 , and an execution unit 150 . The communication unit 110 , the analysis unit 130 , and the execution unit 150 may all be installed in the terminal 100 . The analysis unit 130 or the execution unit 150 may be installed in the server 70 .

The communication unit 110 may acquire first measurement information of indoor air. The first measurement information may include at least one of ultrafine dust concentration, ultrafine dust concentration, fine dust concentration, volatile organic compound concentration, carbon dioxide concentration, temperature, and humidity.

The analyzer 130 may analyze the first measurement information. Concentrations of various contaminants included in the first measurement information may be difficult for a user to intuitively recognize.

The analysis unit 130 may level the current indoor air quality or indoor pollution level so that the user can intuitively recognize it by using the first measurement information. For example, the analyzer 130 may classify indoor pollution levels such as 'bad', 'normal', 'good', and 'very good'.

The execution unit 150 may execute a reduction policy for reducing the indoor pollution level including the indoor air pollution level according to the analysis result of the analysis unit 130 .

The analyzer 130 may analyze the indoor pollution level by using the first measurement information measured by the indoor measuring device 10 . When the indoor pollution degree satisfies a set value, the analyzer 130 may generate an event for reducing the indoor pollution degree. The execution unit 150 may execute a corresponding event.

For example, when the concentration of carbon dioxide included in the first measurement information reaches a set value, the analysis unit 130 may generate an event for realizing a reduction policy for reducing indoor pollution. The type of event may vary according to the type of the execution unit 150 .

For example, when the execution unit 150 includes a display unit such as a display, the analysis unit 130 includes a warning message displayed on the display, an action instruction message instructing to open the ventilation means 90 such as a window, etc. It is possible to generate a reduction message of In this case, a warning message and an action instruction message may correspond to the event. In this case, the execution of the event made by the execution unit 150 may include displaying a warning message or an action instruction message provided from the analysis unit 130 on the display. Alternatively, the execution of the event made by the execution unit 150 may include transmitting a warning message or an instruction message per line provided from the analysis unit 130 to the server 70 . The server 70 may control a window opening/closing device or a purifying device existing under its control.

As another example, when the execution unit 150 includes a purification device such as an opening/closing device for automatically opening and closing a window or an air purifier, the analysis unit 130 may generate a control signal for operating the opening/closing device or the purification device. . In this case, the control signal of the opening/closing device or the purification device may correspond to the event. In this case, the execution of the event made by the execution unit 150 may include controlling the opening/closing device or the purifying device using a control signal.

In summary, the execution unit 150 may generate a reduction message guiding the operation method of the ventilation means 90 such as a window or an air purifier to reduce the indoor pollution level according to the analysis result of the analysis unit 130 . Execution unit 150 may display a reduction message to the user through the display means. A user who confirms the reduction message may open or close a window or turn on/off the air purifier.

The execution unit 150 may control the ventilation means 90 for reducing the indoor pollution level according to the analysis result of the analysis unit 130 . The ventilation means 90 is an air purifier that is turned on and off by the control of the execution unit 150 , a ventilation fan that is turned on and off by the control of the execution unit 150 , and the execution unit 150 . ) may include at least one of the windows that are opened and closed by the control.

The communication unit 110 may provide the first measurement information to the server 70 . The communication unit 110 may receive from the server 70 a set value for determining execution of a reduction policy or second measurement information of outdoor air. The set value or the second measurement information may be compared with the first measurement information by the analysis unit 130 , and the execution unit 150 may execute a reduction policy according to the comparison result of the analysis unit 130 .

On the other hand, even if the indoor pollution level is bad enough to require ventilation, ventilation may not be desirable. For example, if the outdoor pollution degree indicating the pollution degree of the outdoor air is worse than the indoor pollution degree, it is preferable that ventilation is not performed even if the indoor pollution degree is bad. Therefore, it may be advantageous for the reduction policy to be implemented through comparison between the outdoor pollution level and the indoor pollution level.

The communication unit 110 may obtain second measurement information of outdoor air from the outdoor measuring device 20 or the server 70 . The second measurement information may include ultrafine dust concentration, ultrafine dust concentration, fine dust concentration, volatile organic compound concentration, carbon dioxide concentration, temperature, humidity, ozone concentration, sulfur dioxide concentration, and the like.

The analysis unit 130 may compare the first measurement information with the second measurement information, and generate an event for reducing indoor pollution according to the comparison result.

For example, when the indoor pollution level is worse than the outdoor pollution level analyzed through the second measurement information, the analysis unit 130 may execute a reduction policy of opening the window. If the indoor pollution level is better than the outdoor pollution level, the analysis unit 130 may execute a reduction policy to close the window. The indoor pollution reduction policy of the present invention does not mean only opening the window in the direction in which ventilation is made, and may also include closing the window as in this embodiment.

2 is a schematic diagram showing another measuring device of the present invention.

The measuring device shown in FIG. 2 may represent the server 70 of FIG. 1 .

The server 70 may include a collection unit, a storage unit, and a provision unit.

The collector may collect first measurement information of indoor air from the indoor meter 10 or the terminal 100 and collect second measurement information of outdoor air from the outdoor meter 20 . The collection unit may collect a large amount of first measurement information from a plurality of terminals 100 installed in various places. The collecting unit may collect a large amount of second measurement information from a plurality of outdoor measuring devices 20 installed in various places.

The storage unit may synchronize and store the first measurement information and the second measurement information. The first measurement information and the second measurement information that are matched and accumulated and stored may be converted into big data.

The providing unit may analyze the first measurement information and the second measurement information synchronized with each other for each region, place, and time, and provide it to the terminal 100 or the second server 70 . The providing unit may correct an error of an event according to the accumulated first measurement information and the second measurement information, and may provide the corrected event to the terminal 100 .

3 is a graph showing first statistical information, and FIG. 4 is a graph showing second statistical information.

The analyzing unit 130 of the terminal 100 or the providing unit of the server 70 may statisticize the first measurement information and the second measurement information on a daily basis as shown in FIG. 3 . Alternatively, the analyzing unit 130 of the terminal 100 or the providing unit of the server 70 may statisticize the first measurement information and the second measurement information on a monthly basis as shown in FIG. 4 .

The first statistical information corresponding to the daily statistics and the second statistical information corresponding to the monthly statistics may be displayed through the execution unit 150 of the terminal 100 .

5 is a schematic diagram illustrating menu information displayed on the terminal 100 .

The execution unit 150 may display the analysis result of the analysis unit 130 through the display. The execution unit 150 may display the first statistical information or the second statistical information on the display.

The execution unit 150 may provide various menu information displayed on the display.

As an example, the menu information may include a CO2 menu indicating the indoor carbon dioxide concentration.

The menu information includes the temperature menu indicating the indoor temperature, the humidity menu indicating the indoor humidity, the PM1.0 menu indicating the indoor ultrafine dust concentration, the PM2.5 menu indicating the indoor ultrafine dust concentration, and the indoor fine dust concentration It may further include at least one of a PM10 menu indicating , and a VOC menu indicating the state of volatile organic compounds in the room.

The execution unit 150 may alternately display a plurality of menus included in the menu information according to a setting order on the display. For example, each of the temperature menu, humidity menu, PM1.0 menu, PM2.5 menu, PM10 menu, VOC menu, and CO2 menu appears in the right corner of the display screen in order and goes through the center of the display screen, the display screen You may exit with the left corner of the The process may be continuously cycled and repeated until the user's manipulation.

A plurality of menu information may be simultaneously displayed on the display screen. For example, any one of the temperature menu, humidity menu, PM1.0 menu, PM2.5 menu, PM10 menu, VOC menu, and CO2 menu is defined as the first information m1 and the other is defined as the second information m2.

In this case, the first information m1 and the second information m2 may be displayed together on one screen. In FIG. 5 , the first information m1 may be a PM1.0 menu, and the second information m2 may be a PM2.5 menu.

When a plurality of menu information is displayed on one screen, the user can simultaneously grasp a plurality of types of indoor pollution levels. If the first information m1 is the first measurement information and the second information m2 is the second measurement information, the user may check while comparing the indoor pollution level and the outdoor pollution level on one screen.

Meanwhile, various menu information may include concentrations of pollutants such as fine dust. It can be difficult for an average user without specialized knowledge to identify how much indoor or outdoor pollution is from the concentration of a pollutant. In order to improve the user's identification, the execution unit 150 may display the indoor pollution level or the outdoor pollution level as icons.

For example, the icon i0 in the shape of a smile with an open mouth may express 'good' corresponding to a state in which the pollution level is good. The icon i0, which has a closed mouth and a smiling shape, can represent 'normal', which corresponds to a normal state of pollution. The icon i0 in the shape of a horizontally closed mouth can express 'bad', which corresponds to a state of bad pollution. The icon i0, which has a horizontally closed mouth and frowns up to the eyes, can express 'very bad', which corresponds to a very bad state of pollution.

The execution unit 150 may display the first icon i1 instead of the first concentration value p1 of the first pollutant in the first information m1 displayed on the display screen. Of course, the first concentration value p1 may also be displayed.

The execution unit 150 may display the second icon i2 instead of the second concentration value p2 of the second pollutant in the second information m2 displayed on the display screen. Of course, the second concentration value p2 may also be displayed.

The first information m1 and the second information m2 displayed on the display screen may move along a first direction ① from one edge of the screen toward the other edge. The first information m1 and the second information m2 moving along the first direction ① appear at one edge of the screen and move toward the other edge, so that they can exit to the other edge. The first information m1 and the second information m2 exiting to the other corner may reappear from one corner of the screen.

6 is a schematic diagram showing a measuring method of the present invention.

The measuring method shown in FIG. 6 may be performed by the measuring device shown in FIG. 1 .

The measuring method of the present invention may include an acquisition step (S510), an analysis step (S520), and an execution step (S530).

In the obtaining step ( S510 ), first measurement information of indoor air may be obtained from the indoor measuring device 10 , and second measurement information of outdoor air may be obtained from the server 70 . This may be performed by the communication unit 110 . The terminal 100 may obtain both the first measurement information and the second measurement information by the communication unit 110 .

The analysis step (S520) analyzes whether the indoor pollution level analyzed from the first measurement information satisfies a set value received from the server 70, or a difference value between the first measurement information and the second measurement information satisfies a setting range can be analyzed. As an operation performed by the analysis unit 130 , whether an event is executed may be determined according to an analysis result.

In the execution step ( S530 ), an event for reducing indoor pollution level may be executed according to the analysis result. As an operation performed by the execution unit 150, the execution unit 150 displays the first measurement information and the second measurement information together, or a reduction message to guide the operation method of the ventilation means 90 to reduce the indoor pollution level It is possible to display or control the ventilation means 90 to reduce the indoor pollution degree.

The analysis unit 130 obtains the first measurement information and the second measurement information in real time, and analyzes the first change amount corresponding to the hourly change amount of the first measurement information and the second change amount corresponding to the hourly change amount of the second measurement information can do.

The analyzer 130 may predict a value of the first measurement information after a set time by using the first variation. The analysis unit 130 may predict the value of the second measurement information after a set time by using the second variation.

The analysis unit 130 may set a setting value or a setting range for determining execution of a reduction policy through comparison of the predicted first measurement information and the predicted second measurement information.

According to the measuring apparatus and measuring method of the present invention as described above, an interface of an intuitive and visual design can be provided. In order to improve indoor air quality, it is possible to instruct the user to take necessary actions (window on-off, air purifier on-off, ventilation fan on-off). According to the present invention, the user can easily know the air quality of the current indoor space. The user may compare indoor air quality (corresponding to indoor pollution level) and outdoor air quality (corresponding to outdoor pollution level) through an app installed in the terminal 100 such as a smartphone.

According to the present invention, the server 70 may provide prediction data through accumulation of real-time data related to the first measurement information and the second measurement information.

7 is a diagram illustrating a computing device according to an embodiment of the present invention. The computing device TN100 of FIG. 7 may be a device described herein (eg, a measurement device, the terminals 100 100 , the server 70 , etc.).

In the embodiment of FIG. 7 , the computing device TN100 may include at least one processor TN110 , a transceiver device TN120 , and a memory TN130 . In addition, the computing device TN100 may further include a storage device TN140 , an input interface device TN150 , an output interface device TN160 , and the like. Components included in the computing device TN100 may be connected by a bus TN170 to communicate with each other.

The processor TN110 may execute a program command stored in at least one of the memory TN130 and the storage device TN140. The processor TN110 may mean a central processing unit (CPU), a graphics processing unit (GPU), or a dedicated processor on which methods according to an embodiment of the present invention are performed. The processor TN110 may be configured to implement procedures, functions, and methods described in connection with an embodiment of the present invention. The processor TN110 may control each component of the computing device TN100 .

Each of the memory TN130 and the storage device TN140 may store various information related to the operation of the processor TN110 . Each of the memory TN130 and the storage device TN140 may be configured as at least one of a volatile storage medium and a non-volatile storage medium. For example, the memory TN130 may include at least one of a read only memory (ROM) and a random access memory (RAM).

The transceiver TN120 may transmit or receive a wired signal or a wireless signal. The transceiver TN120 may be connected to a network to perform communication.

On the other hand, the embodiment of the present invention is not implemented only through the apparatus and/or method described so far, and a program for realizing a function corresponding to the configuration of the embodiment of the present invention or a recording medium in which the program is recorded may be implemented. And, such an implementation can be easily implemented by those skilled in the art from the description of the above-described embodiments.

Although the embodiment of the present invention has been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention as defined in the following claims are also presented. It belongs to the scope of the invention.

10...indoor meter 20...outdoor meter
70...Server 90...Ventilation means
100...Terminal 110...Ministry of Communications
130...analysis unit 150...execution unit

Claims (10)

a communication unit for obtaining first measurement information of indoor air;
an analysis unit analyzing the first measurement information;
an execution unit executing a reduction policy for reducing the indoor pollution level including the indoor air pollution level according to the analysis result of the analysis unit;
A measuring device comprising a.
According to claim 1,
The communication unit acquires second measurement information of outdoor air,
The analysis unit compares the first measurement information with the second measurement information, and generates an event for reducing the indoor pollution level according to the comparison result,
The execution unit is a measurement device that executes the event.
According to claim 1,
The communication unit acquires second measurement information of outdoor air,
The analysis unit executes a reduction policy of opening a window when the indoor pollution level is worse than the outdoor pollution level analyzed through the second measurement information,
The analysis unit, if the indoor pollution degree is better than the outdoor pollution degree, measuring device for executing a reduction policy to close the window.
According to claim 1,
The communication unit acquires second measurement information of outdoor air,
The analysis unit acquires the first measurement information and the second measurement information in real time,
The analysis unit analyzes a first amount of change corresponding to the amount of change per hour of the first measurement information and a second amount of change corresponding to the amount of change per hour of the second measurement information,
The analysis unit predicts the value of the first measurement information after a set time using the first change amount, predicts the value of the second measurement information after the set time by using the second change amount,
The analysis unit is a measurement device for setting a setting value or a setting range for determining the execution of the reduction policy through the comparison of the predicted first measurement information and the predicted second measurement information.
According to claim 1,
The execution unit displays the analysis result of the analysis unit through a display,
The execution unit provides menu information displayed on the display,
The menu information includes a CO2 menu indicating the indoor carbon dioxide concentration,
The menu information includes a temperature menu indicating indoor temperature, a humidity menu indicating indoor humidity, a PM1.0 menu indicating indoor ultrafine dust concentration, a PM2.5 menu indicating indoor ultrafine dust concentration, and indoor fine dust It further includes at least one of a PM10 menu indicating the concentration and a VOC menu indicating the state of volatile organic compounds in the room,
The execution unit alternately displays a plurality of menus included in the menu information according to a setting order on the display.
According to claim 1,
The execution unit generates a reduction message to guide the operation method of the ventilation means for reducing the indoor pollution level according to the analysis result of the analysis unit,
The execution unit is a measurement device for displaying the reduction message through a display means.
According to claim 1,
The execution unit controls the ventilation means for reducing the indoor pollution level according to the analysis result of the analysis unit,
The ventilation means is at least one of an air purifier turned on-off by the control of the execution unit, a ventilation fan turned on-off by the control of the execution unit, and a window opened and closed by the control of the execution unit A measuring device comprising a.
According to claim 1,
The communication unit provides the first measurement information to the server,
The communication unit receives the set value for determining the execution of the reduction policy or the second measurement information of outdoor air from the server,
The set value or the second measurement information is compared with the first measurement information by the analysis unit, and the execution unit executes the reduction policy according to the comparison result of the analysis unit.
a collecting unit that collects first measurement information of indoor air from an indoor meter or a terminal and collects second measurement information of outdoor air from the outdoor meter;
a storage unit for synchronizing and storing the first measurement information and the second measurement information;
a providing unit that analyzes the first measurement information and the second measurement information synchronized with each other by region, location, and time and provides the analysis to the terminal or the second server;
A measuring device comprising a.
A measurement method performed by a measurement device, comprising:
obtaining first measurement information of indoor air from an indoor meter, and obtaining second measurement information of outdoor air from a server;
analyzing whether the indoor pollution level analyzed from the first measurement information satisfies a setting value received from the server, or analyzing whether a difference value between the first measurement information and the second measurement information satisfies a setting range;
Including; executing an event to reduce the indoor pollution level according to the analysis result;
In the step of executing the event, the first measurement information and the second measurement information are displayed together, or a reduction message guiding the operation method of the ventilation means for reducing the indoor pollution level is displayed, or the ventilation to reduce the indoor pollution level Measuring method to control means.

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