KR20160073754A - Apparatus for estimating air quality, system for estimating air quality and method for estimating air quality - Google Patents

Abstract

An embodiment of the present invention relates to an air quality evaluation apparatus, an air quality evaluation system, and an air quality evaluation method. The air quality evaluation apparatus comprises: an air detection unit for detecting air quality information from surrounding air; a communications unit for transmitting a signal including the air quality information, and receiving a control signal based on the air quality information; and a control unit for controlling the air detection unit based on the control signal. Therefore, an air quality of a living space can be accurately evaluated.

Description

[0001] The present invention relates to an air quality evaluation system, an air quality evaluation system, and an air quality evaluation method. [0002] Apparatus for estimating air quality,

The present invention relates to an air quality evaluation apparatus, an air quality evaluation system, and an air quality evaluation method.

Recently, interest in air pollution in living space is increasing. Therefore, a technique for evaluating the air quality of a living space is required.

However, in order to accurately evaluate the air quality of a living space, it is necessary to consider various variables such as size, characteristics, environment, personnel, and life pattern.

In order to solve the above problems, one embodiment of the present invention provides an air quality evaluation device, an air quality evaluation system, and an air quality evaluation method.

The present invention relates to an air quality evaluation system and an air quality evaluation method, and more particularly, to an air quality evaluation system and an air quality evaluation method, including an air sensing unit for sensing air quality information from ambient air; A communication unit that transmits a signal including air quality information and receives a control signal based on the air quality information; And a control unit for controlling the air sensing unit based on the control signal. . ≪ / RTI >

The air quality evaluation device may further include: a display unit displaying an air cleaning solution based on the air quality information; And a pattern sensing unit for sensing pattern information of the surrounding environment; As shown in FIG.

An air quality evaluation system according to an embodiment of the present invention includes: a plurality of air sensors each sensing air quality information from surrounding air; A server for receiving a signal including air quality information from a plurality of air sensors; A solution determination unit for determining an air cleaning solution for each air sensor based on air quality information; . ≪ / RTI >

The air quality evaluation system may further include a solution providing unit for providing an air cleaning solution to the terminal.

The solution determining unit may determine the air cleaning solution based on the air quality information, and may determine the air cleaning solution by receiving the property information and the event information of the space in which the plurality of air sensors are disposed, have.

Here, the air cleaning solution may include at least one of manual cleaning, active cleaning, dehumidification, humidification, cooling, and heating.

An air quality evaluation method according to an embodiment of the present invention includes: an air sensing step of sensing air quality information from ambient air; A communication step of transmitting a signal including air quality information and receiving a control signal based on the air quality information; And a control step of controlling the air sensing operation based on the control signal; . ≪ / RTI >

An embodiment of the present invention can accurately evaluate the air quality of a living space. Accordingly, a solution for efficiently improving the air quality can be provided.

1 is a view showing an air quality evaluation apparatus according to an embodiment of the present invention.
2 is a view showing an air quality evaluation system according to an embodiment of the present invention.
3 is a flowchart illustrating an air quality evaluation method according to an embodiment of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings in order that those skilled in the art can easily carry out the present invention.

1 is a view showing an air quality evaluation apparatus according to an embodiment of the present invention.

1, an air quality evaluation apparatus 100 according to an embodiment of the present invention includes an air sensing unit 110, a communication unit 120, a control unit 130, a display unit 140, and a pattern sensing unit 150, . ≪ / RTI >

The air sensing unit 110 can sense air quality information from surrounding air. Here, the air quality information may include parameters such as concentrations of fine dust, total volatile organic compounds, carbon dioxide, carbon monoxide, and the like, and parameters such as temperature and humidity. For example, air quality information can be a comprehensive indicator that reflects all factors that affect air quality. Thus, the air quality information can be a numerical value derived from a specific formula, and can be expressed simply as a grade.

For example, the air sensing unit 110 includes a first spatial sensing unit 111, a second spatial sensing unit 112, a dust sensor 113, a gas sensor 114, a temperature sensor 115, (Not shown).

The first space sensing unit 111 and the second space sensing unit 112 can sense the air quality of the first space and the second space, which are separated from each other. For example, the first space may be indoor, and the second space may be outdoor. The air cleaning solution may be determined based on the detection result of the first spatial sensing unit 111 and the sensing result of the second spatial sensing unit 112. Meanwhile, the air sensing unit 110 can sense the air quality of the first space and the second space by being positioned between the first space and the second space.

By sensing the indoor air quality and the outdoor air quality, the air cleaning unit 110 can be more accurate. For example, if the indoor air quality is poor and the outdoor air quality is good, the air cleaning solution may be manual clean (ventilation). If both indoor and outdoor air quality is poor, the air cleaning solution can be active clean (air purifier use or airflow up).

Here, the air cleaning solution may include at least one of passive cleaning (ventilation), active cleaning (air purifier use or air volume up), dehumidification, humidification, cooling and heating. For example, by sensing the dust sensor 113 and the gas sensor 114, the air cleaning solution can be determined to be either passive clean or active clean. For example, by sensing the temperature sensor 115, the air cleaning solution can be determined to be cooling or heating. For example, by sensing the humidity sensor 116, the air cleaning solution can be determined to be dehumidified or humidified.

The communication unit 120 may transmit a signal including air quality information sensed by the air sensing unit 110 and may receive a control signal based on the air quality information. For example, a signal including air quality information may be transmitted to a server, a computer, a smart phone, or the like. The server, the computer, the smartphone, and the like can analyze the control and air cleaning solution of the air quality evaluation apparatus 100 based on the air quality information. The server, the computer, the smartphone, and the like may transmit a control signal including the analysis result to the air quality evaluation apparatus 100. Thus, the air quality evaluation apparatus 100 can be controlled without providing complicated calculations, and can provide a solution.

For example, the communication unit 120 may receive an air cleaning solution based on the air quality information. That is, the control signal received by the communication unit 120 may include an air cleaning solution.

On the other hand, the air cleaning solution may be transmitted to the user's terminal. That is, the control signal and the air cleaning solution may be transmitted separately from each other.

Meanwhile, the communication unit 120 may transmit a signal including the pattern information sensed by the pattern sensing unit 150, and may receive a control signal based on the pattern information.

The control unit 130 may control the air sensing unit 110 based on the control signal received through the communication unit 120. For example, the control unit 130 may control the sensitivity or sensing range of the sensors included in the air sensing unit 110 based on the control signal.

The various sensors included in the air sensing unit 110 may have different characteristics of the sensor itself, different characteristics of the measured values, and different resolutions. By controlling the various sensors by the control unit 130, the air quality information can be efficiently detected.

In addition, the various sensors included in the air sensing unit 110 may vary in sensitivity or sensing range according to pattern information, an air cleaning solution, and the like. For example, since the temperature and humidity may be irregularly changed by the air cleaning solution, the control unit 130 receives the control signal to organically control the sensitivity or the detection range of the temperature sensor 115 and the humidity sensor 116 . For example, the number of persons around the area can suddenly increase due to the pattern information, so that the control unit 130 can control the sensitivity or sensing range of the gas sensor that senses the concentration of carbon dioxide by receiving the control signal.

The display unit 140 can display an air cleaning solution based on the air quality information. That is, by providing the user with an air cleaning solution, the display unit 140 can improve the air quality. For example, the display unit 140 may be a human machine interface (HMI) including a display device or a speaker.

The pattern sensing unit 150 can sense pattern information of the surrounding environment. Here, the pattern information may include surrounding environmental change patterns, user behavior patterns, and the like. The pattern information can be transmitted together with the air quality information, and can be considered in the control of the air quality evaluation apparatus 100 and the analysis of the air quality improvement solution.

For example, the pattern sensing unit 150 may include an illuminance sensor 151, a time measurement unit 152, and a pattern determination unit 153.

The illuminance sensor 151 can sense the illuminance. The illuminance can be usefully used for determining the characteristics of the user's life pattern and space. For example, depending on whether a user is present or not, the on / off state of ambient lighting may be different. Further, through detection of whether sunlight is sensed, the user behavior pattern can be analyzed.

The time measuring unit 152 may measure the sensing time of the illuminance sensor 151 and the air sensing unit 110. That is, a history of the air quality information and the pattern information can be accumulated by the pattern sensing unit 150 by measuring the time.

The pattern determination unit 153 may determine the pattern of the surrounding environment based on the illuminance measured by the illuminance sensor 151 and the time measured by the time measurement unit 152. [ The pattern information may be transmitted through the communication unit 120 and analyzed from the outside, and may be determined by the pattern determination unit 153. [ This may vary depending on the amount of analysis of the pattern information.

In addition, the pattern sensing unit 150 may include a human body sensor and a microphone. Here, the human body sensor can measure presence or activity of a person. Here, the microphone can measure noise generated in people and environment. Using the result of measurement by the human body sensor or the microphone, the pattern sensing unit 150 can sense the environment change pattern and user behavior pattern of the surroundings.

The human body detecting sensor and the microphone may be used together with the illuminance sensor 151, the time measuring unit 152, and the pattern determining unit 153. Accordingly, the pattern sensing unit 150 can more accurately detect the pattern information of the surrounding environment.

2 is a view showing an air quality evaluation system according to an embodiment of the present invention.

2, an air quality evaluation system 200 according to an embodiment of the present invention includes a plurality of air quality sensors 210, a server 220, a solution determination unit 230, and a solution provider 240 can do.

The plurality of air quality sensors 210 can sense air quality information from the respective surrounding air. Here, the plurality of air quality sensors 210 may be a collective body of the air quality evaluation apparatus 100 described with reference to FIG.

For example, a plurality of air quality sensors 210 may be deployed for each household. That is, the air quality evaluation system 200 can independently evaluate indoor air quality of a plurality of furniture.

On the other hand, the greater the number of the plurality of air quality sensors 210, the more accurate the air cleaning solution can be. Here, the air cleaning solution may include exhaust, air supply, dehumidification, humidification, ventilation time, and the like.

The server 220 may receive signals including air quality information from a plurality of air sensors 210. [ When the number of the plurality of air sensors 210 is large, the total amount of communication data may be large. Accordingly, the server 220 can perform a control role or a relay role by rapidly communicating a large amount of data.

Meanwhile, the server 220 may transmit a control signal for controlling the sensitivity or sensing range of the sensors based on the air quality information.

The solution determination unit 230 can determine an air cleaning solution for each air sensor based on the air quality information. For example, the solution determination unit 230 may be a big data platform capable of complex analysis of a large amount of data.

In addition, the solution determining unit 230 may determine the air quality grade based on the air quality information, and determine the air cleaning solution based on the air quality grade.

The solution determining unit 230 may receive the property information and the event information of the space in which the plurality of air sensors are disposed, and determine the air cleaning solution based on the property information and the event information. For example, the solution determination unit 230 may receive the results of the questionnaire to the user through the terminal. Here, the result of the questionnaire may be attribute information of the space and event information.

Here, the attribute information of the space may include local information, residential environment, household information, product use information, life pattern, and the like. For example, the attribute information of the space can be determined through an interview between the manager of the air quality evaluation system 200 and the user of the air quality sensor. The attribute information of the determined space can be input to the solution determination unit 230 by the administrator.

Here, the event information may include outdoor weather, construction, accidents, and the like. For example, if the humidity around the air quality sensor is high and it is raining outdoors, the air cleaning solution can be an air purifier instead of ventilation.

The solution provider 240 may provide an air cleaning solution to the user of the air quality sensor. For example, the air cleaning solution may be transmitted to each of the plurality of air quality sensors 210 through solution provider 240. For example, the air cleaning solution may be provided to the air quality sensor and other objects (such as terminals) through the solution provider 240. For example, the air cleaning solution may be provided to the administrator via the solution provider 240 and may be provided directly to the user by the administrator.

Meanwhile, the solution provider 240 can provide the air quality evaluation grade, data, and the like to the user in real time. Also, the solution provider 240 can provide the user's action guide according to the air quality in real time. In other words, an air cleaning solution can be a complex guideline to improve the air quality. In addition, the solution provider 240 can provide an air cleaning solution to the user, thereby increasing the user's air cleaner demand and increasing the potential user's air quality sensor and air purifier demand.

Hereinafter, an air quality evaluation method according to an embodiment of the present invention will be described. Since the air quality evaluation method can be performed in the air quality evaluation apparatus 100 or the air quality evaluation system 200 described above with reference to Figs. 1 and 2, the same or equivalent contents as those described above will be described in duplicate No.

3 is a flowchart illustrating an air quality evaluation method according to an embodiment of the present invention.

Referring to FIG. 3, an air quality evaluation method according to an embodiment of the present invention includes an air sensing step S10, a communication step S20, a control step S30, a first space sensing step S41, A sensing step S42, a displaying step S43, an illumination sensing step S51, a time measuring step S52, and a pattern determining step S53.

The air quality evaluation apparatus in the air sensing step S10 can sense air quality information from surrounding air.

The air quality evaluation apparatus in the communication step S20 may transmit a signal including the air quality information sensed in the air sensing step S10 and receive a control signal based on the air quality information. In addition, the air quality evaluation apparatus in the communication step (S20) may transmit a signal including the air quality information sensed in the first space sensing step and the second space sensing step, and may receive the air cleaning solution. Further, the air quality evaluation apparatus in the communication step (S20) may transmit a signal including the pattern information determined from the pattern determination step, and receive a control signal based on the pattern information.

The air quality evaluation apparatus in the control step S30 can control the air sensing operation based on the control signal received through the communication step S20.

The air quality evaluation apparatus in the first spatial sensing step (S41) can sense the air quality information of the first space. The air quality evaluation apparatus in the second spatial sensing step (S42) can sense the air quality information of the second space. The air quality evaluation apparatus in the display step S43 may display an air cleaning solution based on the detection result of the first space sensing step S41 and the detection result of the second space sensing step S42.

The air quality evaluation device in the illumination sensing step S51 can sense illumination. The air quality evaluation apparatus in the time measurement step S52 may measure the sensing time of the illumination sensing step S51 and the air sensing step S10. The air quality evaluation apparatus in the pattern determination step S53 can determine the pattern of the surrounding environment based on the illuminance measured in the illuminance sensing step S51 and the time measured in the time measurement step S52.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Anyone can make various variations.

100: air quality evaluation device 110: air sensor
111: first spatial sensing unit 112: second spatial sensing unit
113: Dust sensor 114: Gas sensor
115: Temperature sensor 116: Humidity sensor
120: communication unit 130:
140: display unit 150: pattern detection unit
151: illuminance sensor 152: time measuring unit
153: pattern determination unit 200: air quality evaluation system
210: plurality of air quality sensors 220: server
230: solution decision section 240: solution provider
S10: Air sensing step S20: Communication step
S30: Control step S41: First spatial sensing step
S42: second spatial sensing step S43: display step
S51: illumination detection step S52: time measurement step
S53: Pattern determination step

Claims (15)

An air sensing unit for sensing air quality information from ambient air;
A communication unit for transmitting a signal including air quality information sensed by the air sensing unit and receiving a control signal based on the air quality information; And
A control unit for controlling the air sensing unit based on a control signal received through the communication unit; And an air quality evaluation device.
The method according to claim 1,
Wherein the air sensing unit includes at least two of a dust sensor, a gas sensor, a temperature sensor, and a humidity sensor,
Wherein the control unit controls the sensitivity or sensing range of the sensors included in the air sensing unit based on the control signal.
The method according to claim 1,
Further comprising a display unit for displaying an air cleaning solution based on the air quality information,
Wherein the communication unit receives the air cleaning solution based on the air quality information,
Wherein the air cleaning solution includes at least one of manual cleaning, active cleaning, dehumidification, humidification, cooling, and heating.
The air conditioner according to claim 3,
A first space sensing unit sensing air quality information of the first space; And
A second space sensing unit sensing air quality information of the second space separated from the first space; Lt; / RTI >
A second space located between the first space and the second space,
Wherein the air cleaning solution is determined based on the detection result of the first space sensing unit and the detection result of the second space sensing unit.
The method according to claim 1,
Further comprising a pattern detection unit for detecting pattern information of an environment,
Wherein the communication unit transmits a signal including the pattern information sensed by the pattern sensing unit, and receives a control signal based on the pattern information.
6. The apparatus of claim 5,
An illuminance sensor for sensing illuminance;
A time measuring unit for measuring a sensing time of the illuminance sensor and the air sensing unit; And
A pattern judging unit for judging a pattern of the surrounding environment based on the illuminance measured by the illuminance sensor and the time measured by the time measuring unit; And an air quality evaluation device.
A plurality of air sensors each sensing air quality information from the ambient air;
A server for receiving a signal including the air quality information from the plurality of air sensors; And
A solution determination unit for determining an air cleaning solution for each air sensor based on the air quality information; And an air quality evaluation system.
8. The method of claim 7,
Wherein the plurality of air sensors include at least two of a dust sensor, a gas sensor, a temperature sensor, and a humidity sensor,
Wherein the server transmits a control signal for controlling the sensitivity or sensing range of the sensors based on the air quality information.
8. The method of claim 7,
Further comprising a solution provider for providing the air cleaning solution,
Wherein the solution determining unit determines an air quality grade based on the air quality information and determines an air cleaning solution based on the air quality grade.
8. The method of claim 7,
Wherein the solution determining unit receives attribute information or event information of a space in which the plurality of air sensors are disposed, determines an air cleaning solution based on the property information or the event information,
Wherein the air cleaning solution comprises at least one of manual cleaning, active cleaning, dehumidification, humidification, cooling and heating.
11. The method of claim 10,
Further comprising a solution providing unit for providing the air cleaning solution to the terminal,
Wherein the solution determining unit receives attribute information or event information through the terminal.
8. The method of claim 7,
Wherein the plurality of air sensors include a pattern sensing unit for sensing pattern information of an environment,
Wherein the server receives a signal including pattern information sensed by the pattern sensing unit and transmits a control signal based on the pattern information to the plurality of air sensors.
An air sensing step of sensing air quality information from ambient air;
A communication step of transmitting a signal including air quality information sensed in the air sensing step and receiving a control signal based on the air quality information; And
A control step of controlling the air sensing operation based on the control signal received through the communication step; And the air quality evaluation method.
14. The method of claim 13,
A first spatial sensing step of sensing air quality information of the first space;
A second spatial sensing step of sensing air quality information of the second space; And
A display step of displaying an air cleaning solution based on the detection result of the first space sensing step and the sensing result of the second space sensing step; Further comprising:
Wherein the communicating step transmits a signal including air quality information sensed in the first sensing step and the second sensing step, receiving the air cleaning solution,
Wherein the air cleaning solution comprises at least one of passive cleaning, active cleaning, dehumidification, humidification, cooling, and heating.
14. The method of claim 13,
An illumination sensing step of sensing illumination;
A time measuring step of measuring a sensing time of the illumination sensing step and the air sensing step; And
A pattern determining step of determining a pattern of the surrounding environment based on the illuminance measured in the illuminance sensing step and the time measured in the time measuring step; Further comprising:
Wherein the communication step transmits a signal including the pattern information determined from the pattern determination step, and receives a control signal based on the pattern information.

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