KR102611440B1 - Intelligent system for air cleaning - Google Patents

Abstract

An artificial intelligence air purification system is provided. The artificial intelligence air purification system according to an embodiment of the present invention is a ventilation system that detects indoor air condition information, discharges indoor air outdoors, purifies outdoor air, and introduces it indoors, and indoor air condition information collected from the ventilation system. A web service server that receives indoor air status information and corresponding action information to the user terminal, and receives indoor air status information from the web service server and provides ventilation based on the received indoor air status information and current outdoor air status information. It includes an AI server that controls the system and manages indoor air conditions through artificial intelligence.

Description

Artificial intelligence air purification system {Intelligent system for air cleaning}

The present invention relates to an artificial intelligence air purification system.

In general, fine dust, CO ₂ and VOC (volatile organic compounds) cause indoor air pollution. At this time, indoor air pollutants are 1,000 times more harmful than outdoor air pollutants because air flow is restricted in a closed room.

Existing air purifiers that only purify indoor air have limitations in their processing capacity, so indoor air pollutants cannot be completely removed by air purifiers. In this case, indoor air pollutants can be completely removed only through ventilation through vents that circulate outdoor air and indoor air. However, if the outside dust concentration is high, it is not possible to open the window and ventilate because the outside dust may flow into the room. Therefore, there is a need for a method that can remove indoor air pollutants by actively ventilating according to the pollution status of indoor and outdoor air.

KR10-2019-0103111A (published on 2019.09.04)

The present invention was conceived in consideration of the above points, and its purpose is to provide an artificial intelligence air purification system that can purify outdoor air and bring it indoors or discharge indoor air outdoors depending on the outdoor and indoor air conditions. There is.

In order to solve the above-described problems, the present invention includes a ventilation system that detects indoor air condition information, discharges indoor air to the outdoors, purifies the outdoor air, and brings it indoors; a web service server that receives indoor air state information collected from the ventilation system and provides indoor air state information and corresponding action information to a user terminal; An AI server that receives the indoor air condition information from the web service server and controls the ventilation system based on the received indoor air condition information and current outdoor air condition information to manage the indoor air condition by artificial intelligence; and an AI voice recognition device that requests indoor air purification from the AI server according to an indoor air purification command given by the user's voice.

According to a preferred embodiment of the present invention, the AI server can calculate purification operation conditions according to the indoor air purification request and transmit them to the ventilation system through the AI voice recognition device.

Additionally, the ventilation system is capable of short-distance wireless communication with the AI voice recognition device.

In addition, the artificial intelligence air purification system may further include a smart home system that operates through the AI voice recognition device according to commands from the AI server.

At this time, the smart home system can operate windows installed indoors and work with an air purifier that purifies indoor air.

In addition, the ventilation system is linked to the AI server through wired and wireless communication, recognizes the user's voice, and can request indoor air purification operation conditions from the AI server according to the indoor air purification command by the user's voice.

In addition, the ventilation system transmits the indoor air condition information through short-distance wireless communication with the user terminal, and the user terminal may transmit an indoor air purification command input by the user to the ventilation system in short-distance wireless communication.

Additionally, the AI server may calculate the indoor air pollution level based on the received indoor air state information and calculate the operating conditions of the ventilation system according to the pollution level.

In addition, the ventilation system includes a sensor unit that detects indoor air conditions; An opening and closing part that opens when outdoor air is introduced and indoor air is discharged, and closes when indoor air is purified; a circulation fan that generates an airflow to introduce the outdoor air or exhaust the indoor air; And it may include a filter that purifies outdoor air flowing into the room.

At this time, the ventilation system may have the opening and closing unit provided on the outdoor side, the filter provided on the indoor side, the circulation fan provided between the opening and closing unit and the filter, and at least one side of the filter may be provided with a ventilation hole.

Here, the filter is made of thin fiber and may be a combination antibacterial and fine dust filter.

According to the present invention, indoor air pollutants can be effectively removed by purifying outdoor air and introducing it indoors or discharging indoor air depending on the outdoor and indoor air conditions, thereby optimally managing indoor air conditions.

In addition, the present invention calculates the optimal purification conditions according to the indoor air purification command given by the user's voice and performs outdoor air inflow and indoor air discharge, thereby improving convenience by minimizing the user's effort to improve indoor air conditions. there is.

In addition, the present invention can provide optimal ventilation conditions for removing indoor air pollutants by calculating purification conditions according to not only indoor air conditions but also outdoor air conditions through artificial intelligence, thereby improving indoor air management efficiency. there is.

1 is a schematic configuration diagram of an artificial intelligence air purification system according to an embodiment of the present invention;
Figure 2 is a diagram for explaining indoor air purification by an artificial intelligence air purification system according to an embodiment of the present invention;
Figure 3 is a block diagram showing an example of a ventilation system of an artificial intelligence air purification system according to an embodiment of the present invention;
Figure 4 is a cross-sectional view showing the configuration of the ventilation system main body of the artificial intelligence air purification system according to an embodiment of the present invention, and
Figure 5 is a block diagram showing another example of a ventilation system of an artificial intelligence air purification system according to an embodiment of the present invention.

Hereinafter, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. The present invention may be implemented in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts not related to the description are omitted, and identical or similar components are given the same reference numerals throughout the specification.

The artificial intelligence air purification system 10 according to an embodiment of the present invention is a system for removing indoor air pollutants by introducing outdoor air indoors. In particular, it discharges indoor air and performs purification treatment when outdoor air flows in. It can be done.

Through this, the artificial intelligence air purification system 10 according to an embodiment of the present invention can effectively remove indoor air pollutants even under various environmental conditions by the artificial intelligence server, so that indoor air conditions can be easily and optimally managed. there is.

To this end, the artificial intelligence air purification system 10 according to an embodiment of the present invention includes a ventilation system 100, a web service server 200, an AI server 300, and AI voice recognition, as shown in FIG. Includes device 400.

The ventilation system 100 can detect indoor air condition information, discharge indoor air outdoors, and purify outdoor air to bring it indoors. Here, the indoor space may be a space where people work or reside, such as a home, office, school, etc., and is not particularly limited as long as it is a specific space that can be distinguished from the outdoor space.

Referring to FIG. 2, when the concentration of air pollutants in the room (1) is high, the ventilation system (100) exceeds the purification capacity of the air purifier (3) provided in the room (1) or the air purifier If (3) alone is not sufficient for purification efficiency, indoor air can be discharged to the outside (O) to remove indoor air pollutants.

In addition, when outdoor air is introduced (I), the ventilation system 100 can purify the outdoor air and introduce it indoors, especially when the outdoor air is poorly polluted, such as fine dust.

Additionally, the ventilation system 100 can perform short-range wireless communication with the AI voice recognition device 400. For example, the ventilation system 100 can be paired with the AI voice recognition device 400 using BLE (Bluetooth Low Energy). As another example, the ventilation system 100 may be communicatively connected to the AI voice recognition device 400 through WiFi.

At this time, the ventilation system 100 may transmit the detected indoor air condition information to the AI voice recognition device 400. Here, indoor air condition information may include indoor air pollutants and their concentrations. Additionally, the ventilation system 100 may receive indoor air purification operating conditions calculated by the AI server 300 from the AI voice recognition device 400.

Through this, the artificial intelligence air purification system 10 according to an embodiment of the present invention can easily manage the indoor air condition to an optimal state using artificial intelligence just by installing the ventilation system 100.

Additionally, the ventilation system 100 may perform short-range wireless communication with the user terminal 500. For example, the ventilation system 100 can be paired with the user terminal 500 using BLE. As another example, the ventilation system 100 may be communicatively connected to the user terminal 500 through WiFi.

Here, the user terminal 500 may be an electronic device capable of wireless communication. For example, the user terminal 500 may be a smartphone, netbook, or laptop. At this time, the user terminal 500 may be equipped with an indoor air condition management application. The indoor air condition management application can perform Bluetooth pairing or communication connection between the ventilation system 100 and the user terminal 500.

At this time, the ventilation system 100 may transmit the sensed indoor air condition information and indoor air condition change trend to the user terminal 500. Additionally, the ventilation system 100 may receive an indoor air purification command from the user terminal 500. That is, the user terminal 500 may transmit the indoor air purification command input by the user to the ventilation system 100 while in short-distance wireless communication with the ventilation system 100 .

Through this, the artificial intelligence air purification system 10 according to an embodiment of the present invention allows the user to check the indoor air management status using the user terminal 500 and controls the operation of the ventilation system 100 as necessary. This can improve user convenience.

The web service server 200 may receive indoor air state information collected from the ventilation system 100 and provide indoor air state information and corresponding action information to a remote user terminal 500. At this time, the web service server 200 may be communicatively connected to the user terminal 500 through wireless communication over a public communication network.

As a result, the artificial intelligence air purification system 10 according to an embodiment of the present invention can provide indoor air management status not only to users located indoors (1) but also to users located in remote locations, thereby improving user convenience. You can.

Additionally, the web service server 200 is a cloud platform and can provide infrastructure such as computing, storage, and database. Additionally, the web service server 200 can perform artificial intelligence, data lake, and analysis through the AI server 300, which will be described later.

For example, the web service server 200 may request indoor air purification operation conditions from the AI server 300 based on indoor air state information collected from the ventilation system 100. Here, the web service server 200 may provide indoor air state change trend information collected from the ventilation system 100 to the AI server 300.

Additionally, the web service server 200 may notify the user terminal 500 when action is required based on the collected indoor air condition information. At this time, the web service server 200 may send a notification to the user terminal 500 through a push message or SMS.

Additionally, the web service server 200 may include a database (not shown) that stores indoor air state information received from the ventilation system 100. Therefore, the web service server 200 can provide a change trend in indoor air conditions by continuously accumulating and storing indoor air condition information in a database (not shown).

The AI server 300 can receive indoor air condition information from the web service server 200 and control the ventilation system 100 using artificial intelligence.

To this end, the AI server 300 can calculate purification operation conditions according to the indoor air purification request. That is, the AI server 300 can calculate the indoor air pollution level based on the indoor air state information received from the web service server 200 and calculate the operating conditions of the ventilation system 100 according to the calculated pollution level.

Here, the operating conditions of the ventilation system 100 may include selection of indoor air discharge (O) and outdoor air inflow (I). Additionally, the operating conditions of the ventilation system 100 may include characteristics for the selected operation. For example, the operating conditions of the ventilation system 100 may include the discharge rate or discharge rate of indoor air or the inflow rate or amount of outdoor air. The discharge rate or discharge rate of indoor air or the inflow rate or amount of outdoor air may be determined depending on the speed of the circulation fan 160 and the degree of opening of the opening/closing unit 150.

At this time, the AI server 300 controls the ventilation system 100 by calculating the operating conditions of the ventilation system 100 based on the indoor air condition information and the current outdoor air condition information received from the web service server 200. Indoor air conditions can be managed to optimize.

Here, the AI server 300 can receive outdoor air condition information from external weather information. For example, the AI server 300 may receive outdoor air condition information according to the location of the room 1 from the Korea Meteorological Administration server. At this time, the outdoor air condition information may include air pollutants and their concentrations.

Additionally, the AI server 300 can transmit the calculated purification operation conditions to the ventilation system 100 through the AI voice recognition device 400.

Through this, the artificial intelligence air purification system 10 according to an embodiment of the present invention can provide optimal ventilation conditions for removing indoor air pollutants using artificial intelligence, thereby providing intelligent indoor air discharge and outdoor air The management efficiency of indoor air due to inflow can be improved.

The AI voice recognition device 400 may request indoor air purification from the AI server 300 according to an indoor air purification command given by the user's voice. Here, the AI voice recognition device 400 interacts with the AI server 300 through wired and wireless communication and may be a user's input/output device to the AI server 300.

In addition, the AI voice recognition device 400 can receive the analysis result of the AI server 300 and output it as a voice. For example, the AI voice recognition device 400 can output the operating conditions of the ventilation system 100 as a voice. At this time, the AI voice recognition device 400 may transmit the operating conditions calculated by the AI server 300 to the ventilation system 100.

Through this, the artificial intelligence air purification system 10 according to an embodiment of the present invention can control the optimal operation of the ventilation system 100 by the user's voice request, thereby minimizing the user's effort to improve indoor air conditions. This can improve user convenience.

Meanwhile, the artificial intelligence air purification system 10 according to an embodiment of the present invention may further include a smart home system 600.

The smart home system 600 can receive commands from the AI server 300 through the AI voice recognition device 400. Here, the smart home system 600 can control various facilities installed indoors (1).

For example, referring to FIG. 2 , the smart home system 600 may drive the opening and closing of a window 2 installed in the room 1. Additionally, the smart home system 600 can be linked with an air purifier 3 provided in the room 1 to purify indoor air. At this time, the smart home system 600 can control the operation of the air purifier 3. Therefore, the air purifier (3) can purify the indoor (1) air by circulating (C).

At this time, the smart home system 600 may drive the air purifier 3 according to the indoor air purification operating conditions of the AI server 300. For example, if the air condition in the room (1) is good, especially if the condition can be maintained in a sufficiently good condition just by purification by the air purifier (3), the AI server (300) may use the smart home system (600) to (3) can be commanded to run.

Through this, the artificial intelligence air purification system 10 according to an embodiment of the present invention can be linked with the equipment in the room 1 involved in indoor air condition management, so that the indoor air condition can be managed more efficiently.

Referring to FIG. 3, the ventilation system 100 includes a sensor unit 110, a communication unit 120, a storage unit 130, a display unit 140, an opening/closing unit 150, a circulation fan 160, and a control unit 170. may include.

The sensor unit 110 can detect the air condition in the room (1). At this time, the sensor unit 110 can detect substances in the air that are harmful to the human body. For example, the sensor unit 110 can detect contaminants such as formaldehyde, radon, CO ₂ , CO, VOC, ozone, hyponitric acid, bacteria, and viruses. Additionally, the sensor unit 110 can detect indoor temperature and humidity.

The communication unit 120 can perform short-range wireless communication such as BLE or WiFi. Additionally, the communication unit 120 can perform long-distance wireless communication using a public network. Additionally, the communication unit 120 may be connected to a public network through wired communication.

Additionally, the communication unit 120 can communicate with the AI voice recognition device 400 or the user terminal 500 through short-distance wireless communication. When the user terminal 500 is located indoors (1), the communication unit 120 can perform pairing or communication connection with the AI voice recognition device 400 or the user terminal 500.

Additionally, the communication unit 120 may be communicatively connected to the web service server 200. When the user terminal 500 is located remotely from the room 1, the communication unit 120 may establish a communication connection with the web service server 200.

The storage unit 130 may store indoor air condition information detected by the sensor unit 110. At this time, the storage unit 130 may store the concentration and detection time of each pollutant as indoor air condition information.

The display unit 140 may display indoor air condition information detected by the sensor unit 110. For example, the display unit 140 may include LCD, LED, or 7 segments. For example, the display unit 140 may display the temperature and humidity of the room 1. Additionally, the display unit 140 can display pollutants and concentrations selectively or sequentially.

The opening/closing unit 150 may be opened when outdoor air is introduced and indoor air is discharged, and may be closed when indoor air is purified. That is, the opening/closing unit 150 can operate only when air is introduced or discharged. For example, the opening and closing part 150 may be opened and closed by a sliding method or a rotating method.

Referring to FIG. 4 , the opening/closing unit 150 may be provided on the outdoor side of the main body 100a of the ventilation system 100. Here, the main body 100a may be installed on the wall of the room 1. At this time, the main body 100a may be installed penetrating the wall, as shown in FIG. 2.

The circulation fan 160 may generate airflow to introduce outdoor air or exhaust indoor air. As shown in FIG. 2, in the case of air inflow (I), the circulation fan 160 may operate to suck in outdoor air. Conversely, in the case of air discharge (O), the circulation fan 160 may operate to discharge indoor air. Here, the circulation fan 160 rotates in opposite directions for air inflow (I) and air discharge (O), thereby forming an air flow according to the purpose.

Referring to FIG. 4, the circulation fan 160 may be provided between the opening and closing portion 150 and the filter 101 in the main body 100a. The circulation fan 160 can operate only when the opening/closing unit 150 is open.

The control unit 170 can control the indoor air condition information detected by the sensor unit 110 to be stored in the storage unit 130 and transmitted to the web service server 200 through the communication unit 120. For example, the control unit 170 can control data to be transmitted at regular time intervals or to transmit data at a set time.

In addition, the control unit 170 can receive the operating conditions calculated by the AI server 300 through the communication unit 120, and control the opening/closing unit 150 and the circulation fan 160 according to the received operating conditions. At this time, the control unit 170 can control the rotation direction and speed of the circulation fan 160 according to air inflow (I) and air discharge (O).

Meanwhile, the ventilation system 100 may include a filter 101 that purifies outdoor air flowing into the room. Here, the filter 101 is made of thin fiber and may be a composite antibacterial and fine dust filter.

Additionally, the filter 101 is made of fiber 10 times thinner than existing filters, allowing more filtering to be performed with less resistance. These ultra-fine threads can improve filtering performance by forming a virtually impenetrable barrier to contaminant particles.

Referring to FIG. 4, the filter 101 may be provided on the indoor side of the main body 100a. For example, the filter 101 may be provided at the center of the main body 100a in the longitudinal direction. At this time, vent holes 102 may be provided on both sides of the filter 101, for example, on the upper and lower sides of the filter 101.

In this case, a plurality of circulation fans 160 may be optionally provided. For example, the circulation fan 160 may be individually provided at positions corresponding to the filter 101 and the ventilation hole 102. That is, the circulation fan 160 may operate selectively according to air inflow (I) and air discharge (O).

Through this, the artificial intelligence air purification system 10 according to an embodiment of the present invention operates the filter 101 only when outdoor air flows in, thereby improving economic efficiency by reducing filter maintenance costs. there is.

In this embodiment, one filter 101 and two ventilation holes 102 are shown and described, but the present invention is not limited thereto. At this time, the filter 101 and the vent 102 may be arranged so that the air flows for air inflow (I) through the filter 101 and air discharge (O) through the vent hole 102 do not overlap.

Referring to FIG. 5, the ventilation system 100' may further include an AI speaker 180.

The AI speaker 180 can be linked with the AI server 300 through wired or wireless communication. At this time, the AI speaker 180 may request indoor air purification operation conditions from the AI server 300 according to the indoor air purification command given by the user's voice.

Additionally, the AI speaker 180 may receive indoor air purification operating conditions from the AI server 300 and transmit them to the control unit 170 to control the opening/closing unit 150 and the circulation fan 160.

That is, the AI speaker 180 may have substantially the same function as the AI voice recognition device 400. However, by adding the AI speaker 180 to the ventilation system 100, the ventilation system 100 does not need to be linked to a separate AI voice recognition device 400 and can be linked directly to the AI server 300.

Through this, the artificial intelligence air purification system 10 according to an embodiment of the present invention manages indoor air conditions using artificial intelligence by using the external AI server 300 just by having a ventilation system 100'. can be performed, thereby improving the convenience of management and use.

Although one embodiment of the present invention has been described above, the spirit of the present invention is not limited to the embodiment presented in the present specification, and those skilled in the art who understand the spirit of the present invention can add components within the scope of the same spirit. , other embodiments can be easily proposed by change, deletion, addition, etc., but this will also be said to be within the scope of the present invention.

10: Artificial intelligence air purification system 100: Ventilation system
101: filter unit 102: vent hole
110: sensor unit 120: communication unit
130: storage unit 140: display unit
150: opening and closing part 160: circulation fan
170: Control unit 180: AI speaker
200: Web service server 300: AI server
400: AI voice recognition device 500: User terminal
600: Smart home system

Claims (3)

An artificial intelligence air purification system that removes indoor air pollutants by purifying indoor air emissions and outdoor air intake using artificial intelligence, respectively.
A ventilation system that detects indoor air condition information, discharges indoor air to the outdoors, purifies outdoor air, and brings it indoors, and performs optimal control, which is control according to the operating conditions for purifying indoor air calculated by the AI server;
a web service server that receives indoor air state information collected from the ventilation system and provides indoor air state information and corresponding action information to a user terminal;
It is equipped with artificial intelligence, receives the indoor air condition information, and controls the ventilation system by calculating the purification operation conditions by the artificial intelligence based on the received indoor air condition information and the current outdoor air condition information. An external AI server that manages air conditions; and
An AI voice recognition device that corresponds to the user's input/output device to the AI server and requests indoor air purification to the AI server according to the user's indoor air purification command,
The ventilation system is,
A sensor unit that detects indoor air conditions;
A main body installed on an indoor wall;
an opening and closing part provided on the outdoor side of the main body, which opens when outdoor air is introduced and indoor air is discharged, and closes when indoor air is purified;
a circulation fan that operates when the opening/closing unit is opened to generate an air flow by introducing the outdoor air or discharging the indoor air; and
A filter is provided on the indoor side of the main body and is provided in a passage provided on one side of the ventilation hole to purify outdoor air flowing into the room through the passage,
The circulation fan is provided between the opening and closing portion and the filter in the main body, and is individually provided at a position corresponding to the filter and the ventilation hole, and is used to discharge the indoor air and a first circulation fan at a position corresponding to the filter. Each includes a second circulation fan located at a position corresponding to the ventilation hole,
When outdoor air is introduced, the first circulation fan operates, and when indoor air is discharged, the second circulation fan operates, and the difference between the outdoor air inflow through the filter and the indoor air discharge flow through the vent The filter and the vent are arranged to exclude overlap, and the vent is provided on both sides of the filter, respectively,
When the web service server requires action according to the collected indoor air status information, a notification is sent to the user terminal, and the user terminal transmits the indoor air purification command entered by the user to the ventilation system, thereby controlling the ventilation system. movement is controlled,
The AI server calculates the purification operation conditions according to the indoor air purification command, and adjusts the speed of the second circulation fan and the opening degree of the opening/closing part to calculate the indoor air purification operation conditions for the discharge or discharge rate of indoor air. The speed of the first circulation fan and the degree of opening of the opening/closing part are determined by artificial intelligence to calculate indoor air purification operating conditions for the inflow rate or inflow amount of outdoor air, and the determined first and second The purification operation conditions, including the speed of the circulation fan and the degree of opening of the opening and closing part, are transmitted to the ventilation system through the AI voice recognition device,
The ventilation system receives the purification operation conditions calculated by the AI server using the artificial intelligence from the AI voice recognition device, and discharges indoor air to the outside when the concentration of pollutants in the indoor air is above a certain level. When air is introduced, if the outdoor air pollution is worse than a certain level, the outdoor air is purified and introduced indoors.
When the user terminal is located indoors, the indoor air condition information collected by the ventilation system is transmitted to the indoor user terminal through short-distance wireless communication, and when the user terminal is located remotely, the web service server Indoor air condition information collected from the ventilation system is transmitted to the remote user terminal through wireless communication of a public communication network, and indoor air condition information is provided to the user in all cases when the user is located indoors or in a remote location,
The user terminal transmits an indoor air purification command input by the user to the ventilation system to control the operation of the ventilation system,
When a command to purify indoor air is generated by the user's voice, the AI voice recognition device recognizes the voice, requests the AI server for the purification operation conditions according to the indoor air purification command of the voice, and calculates them in the AI server. By receiving the purification operation conditions and transmitting them to the ventilation system while outputting the received purification operation conditions as a voice, the optimal control of the ventilation system according to the user's voice request is possible,
The AI server receives the current outdoor air condition information according to the indoor location from the Korea Meteorological Administration server, wherein the current outdoor air condition information includes concentration information on air pollutants,
The AI server controls the smart home system installed indoors through the AI voice recognition device,
The smart home system is an artificial intelligence air purification system including an opening and closing device that opens and closes a window installed in the room, and an air purifier that purifies indoor air in the room according to the purification operation conditions. According to paragraph 1,
The AI server calculates the indoor air pollution level based on the received indoor air condition information and calculates the purification operation conditions according to the pollution level. According to paragraph 1,
The filter is an artificial intelligence air purification system made of thin fibers and is a combined antibacterial and fine dust filter.