TWM607182U - Intelligent environment system - Google Patents

Abstract

A smart environment system comprising: an indoor temperature sensor, which senses the indoor temperature of the indoor environment; an outdoor temperature sensor, which senses the outdoor temperature outside the indoor environment; and an indoor humidity sensor, which senses the indoor environment Indoor humidity; outdoor humidity sensor, which senses the outdoor humidity outside the indoor environment; indoor PM2.5 concentration sensor, which senses the indoor PM2.5 concentration of the indoor environment; outdoor PM2.5 concentration sensing A device that senses the outdoor PM2.5 concentration outside the indoor environment; a carbon dioxide concentration sensor that senses the carbon dioxide concentration of carbon dioxide in the indoor environment; and the control platform server, based on the indoor temperature and the outdoor temperature , The indoor humidity, the outdoor humidity, the indoor PM2.5 concentration, the outdoor PM2.5 concentration, and the carbon dioxide concentration are used to perform comfortable and energy-saving control of the indoor environment and air quality warning control.

Description

Smart Environment System

This model relates to a smart environment system, in particular to a smart environment system that can automatically perform comfortable energy-saving control and air quality warning control.

An air conditioner is a device with an air conditioning function, such as an air conditioner, a heater, or an air-conditioner. Take Taiwan as an example. Because it is located in the subtropical zone and the climate is humid and hot, most of the role of air conditioners is to produce air-conditioning, and heating is rarely needed.

Still taking Taiwan as an example, in addition to the demand for air-conditioners for home and business users, because the summer is too hot, the proportion of air-conditioners installed in school classrooms is also increasing.

In addition, the content of carbon dioxide in the atmosphere is between 0.03% and 0.04%, and in a clean indoor environment, the concentration of carbon dioxide is close to the concentration in the atmosphere. The sources of indoor carbon dioxide mainly come from human breathing, smoking, and other burning behaviors. When the indoor population density is too high or the ventilation efficiency is not good, it is easy to cause the accumulation of carbon dioxide concentration and cause the concentration of other pollutants to increase relatively. Therefore, carbon dioxide is regarded as the most important chemical indicator of indoor ambient air quality.

Generally speaking, the concentration of carbon dioxide in classrooms on campus will gradually accumulate with class time. Studies have shown that when the concentration of carbon dioxide is too high, in addition to irritating the respiratory center and causing breathing difficulties or other sensations, symptoms such as headache, drowsiness, hyporeflexia, and fatigue can also occur. Therefore, if the carbon dioxide concentration in the classroom is too high, the students' willingness to learn will be significantly reduced, which will affect the learning effect. A study exposed subjects to indoor spaces with carbon dioxide concentrations ranging from 600ppm to 2500ppm, and tested the subjects’ problem-solving ability. The results of the study showed that the higher the carbon dioxide concentration, the worse the subjects’ performance. Among them, The scores of subjects at a carbon dioxide concentration of 2500 ppm are generally much worse than those at a carbon dioxide concentration of 1000 ppm.

However, due to the sultry weather in summer and poor outdoor air quality, schools can only choose to start the air-conditioning system indiscriminately and close the doors and windows of the classroom. Although the air in the classroom is not circulated, lacks oxygen, and the carbon dioxide concentration soars, In order to achieve temperature comfort, we can only accept the poor quality of the indoor environment in the classroom, which may not only make students drowsy, affect learning efficiency and hinder healthy development, but also increase electricity costs. Therefore, it is necessary to develop a smart environment system that can control the indoor environment comfortably and energy-savingly and air quality warning control.

Therefore, the purpose of the present invention is to provide a smart environment system.

Therefore, the new smart environment system is suitable for comfortable energy-saving control of the indoor environment and air quality warning control, and includes: an indoor temperature sensor arranged in the indoor environment and used to sense the indoor environment The indoor temperature; an outdoor temperature sensor is installed outside the indoor environment and used to sense the outdoor temperature outside the indoor environment; an indoor humidity sensor is installed in the indoor environment and used to sense The indoor humidity of the indoor environment is measured; an outdoor humidity sensor is arranged outside the indoor environment and used to sense the outdoor humidity outside the indoor environment; an indoor PM2.5 concentration sensor is arranged on the In an indoor environment, and used to sense the indoor PM2.5 concentration of the indoor environment; an outdoor PM2.5 concentration sensor is set outside the indoor environment and used to sense outdoor PM2 outside the indoor environment .5 concentration; a carbon dioxide concentration sensor, set in the indoor environment, and used to sense the carbon dioxide concentration of carbon dioxide in the indoor environment; and a control platform server, electrically connected to the indoor temperature sensor, The outdoor temperature sensor, the indoor humidity sensor, the outdoor humidity sensor, the indoor PM2.5 concentration sensor, the outdoor PM2.5 concentration sensor, and the carbon dioxide A concentration sensor, and based on the indoor temperature, the outdoor temperature, the indoor humidity, the outdoor humidity, the indoor PM2.5 concentration, the outdoor PM2.5 concentration, and the carbon dioxide concentration, The indoor environment is controlled by comfortable energy saving and air quality warning.

The effect of the new model is that the control platform server can automatically control the indoor environment comfortably and energy-savingly according to indoor temperature, outdoor temperature, indoor humidity, and outdoor humidity, and can be based on the indoor environment's carbon dioxide concentration and indoor PM2.5 concentration , And outdoor PM2.5 concentration, the indoor environment is air quality warning control, so as to construct a more comfortable and healthy indoor environment, and can save the electricity cost of air conditioners and other equipment in the indoor environment.

Referring to Fig. 1, an embodiment of the new smart environment system is suitable for comfortable and energy-saving control of indoor environments (such as classrooms in campuses, etc.) and air quality warning control. In this embodiment, the smart environment system includes an indoor temperature sensor 11, an outdoor temperature sensor 12, an indoor humidity sensor 13, an outdoor humidity sensor 14, a carbon dioxide concentration sensor 15, and indoor PM2.5. The concentration sensor 16, the outdoor PM2.5 concentration sensor 17, the control platform server 2, the air conditioner 31, the electric fan 32, the exhaust fan 33, the electronic sign 34, the speaker 35, and the management used by the manager of the indoor environment The Internet device 36 (such as a computer, a smart phone, etc.) and other components. It should be noted that the outdoor temperature sensor 12, the outdoor humidity sensor 14, and the outdoor PM2.5 concentration sensor 17 are not limited to be built by related companies, but the outdoor temperature, outdoor The humidity and the outdoor PM2.5 concentration can also be obtained by directly linking open data (Open Data) or non-public data of the government or other industries.

In this embodiment, the indoor temperature sensor 11 is disposed in the indoor environment and used to sense the indoor temperature of the indoor environment. The outdoor temperature sensor 12 is arranged outside the indoor environment and used to sense the outdoor temperature outside the indoor environment.

The indoor humidity sensor 13 is arranged in the indoor environment and used to sense the indoor humidity of the indoor environment. The outdoor humidity sensor 14 is arranged outside the indoor environment and used to sense outdoor humidity outside the indoor environment.

In this embodiment, the carbon dioxide concentration sensor 15 is installed in the indoor environment, and is used to sense the carbon dioxide concentration of carbon dioxide in the indoor environment.

In this embodiment, the control platform server 2 is electrically connected to the indoor temperature sensor 11, the outdoor temperature sensor 12, the indoor humidity sensor 13, the outdoor humidity sensor 14, and the carbon dioxide The concentration sensor 15 performs comfortable and energy-saving control of the indoor environment and air quality warning control according to the indoor temperature, the outdoor temperature, the indoor humidity, the outdoor humidity, and the carbon dioxide concentration.

In this embodiment, the air conditioner 31, the electric fan 32, the exhaust fan 33, the electronic sign 34, and the horn 35 are all set in the indoor environment and are all electrically connected to the control platform server 2.

In this embodiment, the indoor environment is an example of a classroom in a campus in Taiwan. The most suitable indoor temperature range in Taiwan is 21 to 26 degrees Celsius (℃), and the temperature difference between indoor and outdoor cannot exceed 10 degrees, and the best environmental relative humidity is 40% to 60%. In addition, when the human body is blowing, the body temperature will drop by 2 degrees, and the air conditioner 31 can save 6% of electricity for every 1 degree increase. Therefore, in this embodiment, matching the electric fan 32 to make the skin feel the cold wind can effectively reduce the body temperature, help the air conditioning cycle, and achieve energy saving effects.

Referring to step 40 in Fig. 1 and Fig. 2, in the process of the control platform server 2 automatically performing comfort and energy saving control, it is triggered by the time-start event, and the process is set to start once every hour. After startup, the indoor temperature, outdoor temperature, indoor humidity, and outdoor humidity will be measured first.

As shown in step 411 of FIG. 2, the control platform server 2 determines that the indoor temperature or the outdoor temperature is less than 28° C., so as shown in step 412, the control platform server 2 turns off the air conditioner 31. In this embodiment, turning off the air conditioner 31 when the indoor temperature or outdoor temperature is less than 28°C can be further divided into two situations: as shown in step 413, the control platform server 2 determines that the indoor temperature is greater than or equal to 25°C And is less than 28°C, so as shown in step 414, the control platform server 2 controls the electric fan 414 to automatically turn on; or, as shown in step 415, the control platform server 2 determines that the indoor temperature is less than 25°C, or the indoor temperature The humidity is greater than 85%, so as shown in step 416, the control platform server 2 controls the electric fan 414 to automatically turn off. When the indoor temperature and indoor humidity data do not meet the requirements of the above two situations, the comfort and energy saving control process is directly ended.

Or, as shown in step 421, when the control platform server 2 determines that the indoor temperature and the outdoor temperature are greater than or equal to 28°C, it will automatically turn on the air conditioner 31 and the electric fan 32, which can be subdivided into several air conditioning modes.

First air conditioning mode: As shown in step 422, the control platform server 2 determines that the indoor temperature and outdoor temperature are both greater than or equal to 32°C, so as shown in step 423, the control platform server 2 automatically turns on the air conditioner 31 and The electric fan 32 and the set temperature of one of the air conditioners 31 are automatically set to 28°C.

Second air conditioning mode: As shown in step 424, the control platform server 2 determines that the indoor temperature is greater than or equal to 32°C and the outdoor temperature is less than 32°C, so as shown in step 425, the control platform server 2 automatically turns on the air conditioner 31 and an electric fan 32, and automatically set the set temperature of the air conditioner 41 to 26°C. For example, when the current outdoor temperature is 30°C and the indoor temperature is 32°C, the control platform server 2 will turn on the air conditioner 31 through the infrared module (not shown) set in the indoor environment, and set the temperature It is automatically set to 26°C, and the electric fan 32 is turned on to reduce the indoor temperature to a comfortable range, and the temperature difference with the outdoor temperature will not be too large.

The third air-conditioning mode: As shown in step 426, the control platform server 2 determines that the indoor temperature is less than 30° C. or the outdoor humidity is greater than 85%, then the electric fan 32 is turned on, and the air conditioner 31 is set to the air supply mode.

Furthermore, when the indoor temperature, outdoor temperature, and outdoor humidity data do not meet the requirements of the above three air-conditioning modes, the comfort energy-saving control process is directly ended.

In addition, when this embodiment is applied to a classroom in a campus, in the above-mentioned three air-conditioning modes that start once an hour, the control platform server 2 will control the power supply of the air-conditioner 31 to be cut off after school and before class the next day. Prevent users from forgetting to turn off the air conditioner 31 or improper use after school, so as to achieve energy saving function.

Refer to Figure 1, Figure 3, step 50, and Figure 4. In the process of the control platform server 2 automatically performing air quality warning control, it is also triggered by the time start event, and because the carbon dioxide concentration changes rapidly, it is set to every ten minutes Start the process once.

Next, as shown in step 51 in FIG. 3, the control platform server 2 measures the carbon dioxide concentration of the indoor environment through the carbon dioxide concentration sensor 15, and makes a corresponding response according to the concentration. Among them, in this embodiment, the standard value of carbon dioxide concentration is defined as 700 ppm.

As shown in step 521, the control platform server 2 determines that the carbon dioxide concentration is less than or equal to 450 ppm, so as shown in step 522, the control platform server 2 automatically controls the electronic signage 34 to display that the carbon dioxide concentration is within the normal range. In this embodiment, when the carbon dioxide concentration in the indoor environment is less than or equal to 450 ppm, the electronic signage 34 may display a green smiling face symbol (not shown) to indicate that the carbon dioxide concentration is within the normal range.

As shown in step 531, the control platform server 2 determines that the carbon dioxide concentration is greater than 450 ppm and less than or equal to 700 ppm, so as shown in step 532, the control platform server 2 automatically controls the electronic signage 34 to display that the carbon dioxide concentration has increased but The carbon dioxide concentration standard value of 700 ppm has not been exceeded. In this embodiment, when the carbon dioxide concentration in the indoor environment is greater than 450 ppm and less than or equal to 700 ppm, the electronic signage 34 can display a yellow emoji (not shown) to remind teachers and students in the classroom that the The concentration of carbon dioxide has increased and attention must be paid.

As shown in step 541, the control platform server 2 determines that the carbon dioxide concentration is greater than 700 ppm, so as shown in step 542, the control platform server 2 automatically controls the electronic signage 34 to display that the carbon dioxide concentration has exceeded the standard value of the carbon dioxide concentration. In this embodiment, when the carbon dioxide concentration in the indoor environment is higher than 700 ppm, the electronic billboard 34 can light up a red light and a depressed face symbol (not shown) to warn teachers and students in the classroom that the carbon dioxide concentration The carbon dioxide concentration has exceeded the standard value of 700ppm, which will affect the human body.

Then, the control platform server 2 will activate three different reaction mechanisms according to the degree to which the carbon dioxide concentration exceeds the standard value of 700 ppm for the carbon dioxide concentration.

The first reaction mechanism: as shown in step 543, the control platform server 2 determines that the carbon dioxide concentration is greater than 700 ppm and less than or equal to 1000 ppm, and then as shown in step 544, the horn 35 is automatically controlled to emit a warning sound once.

The second reaction mechanism: as shown in step 545, the control platform server 2 determines that the carbon dioxide concentration is greater than 1000 ppm and less than or equal to 2500 ppm, so as shown in step 546, the control platform server 2 automatically controls the electronic sign 34 to display The carbon dioxide concentration has seriously exceeded the standard, and the exhaust fan 33 is turned on to circulate the air in the indoor environment. As shown in the display screen of the electronic billboard 34 installed in each classroom in the campus as shown in Figure 4, the carbon dioxide concentration of eight classrooms has seriously exceeded the standard, which is within the range of greater than 1000ppm and less than or equal to 2500ppm; in addition, because of this campus The current indoor temperature of each classroom in China has dropped below 28℃, so the electronic sign 34 does not need to display the indoor temperature value of all classrooms; in addition, because the indoor humidity of Class 11 classrooms in 4 years of 64% has exceeded the optimal The ambient humidity is 40%~60% and the upper limit is 60%. Therefore, the electronic signage 34 also shows that the indoor humidity of Class 11 classrooms in 4 years is 64%, while the indoor humidity of other classrooms are in the range of 40%~60%. , So it does not need to be displayed.

The third reaction mechanism: as shown in step 547, the control platform server 2 determines that the carbon dioxide concentration is greater than 2500 ppm, and then as shown in step 548, the control platform server automatically controls the speaker 35 to issue a voice alarm to remind you to leave Teachers and students in the classroom, the carbon dioxide concentration in the classroom has seriously exceeded the standard. Do not stay in the classroom for a long time. At the same time, the control platform server 2 will automatically turn on the exhaust fan 33, and the control platform server 2 will also A reminder message is sent to the administrator's Internet device 36 to remind the administrator to proceed.

Referring to step 60 in Fig. 1 and Fig. 5, during the process of automatic air quality warning control performed by the control platform server 2, the PM2.5 concentration can also be controlled at the same time. As shown in step 61, the control platform server 2 determines that the indoor PM2.5 concentration is less than 35 μg/m ³ and the outdoor PM2.5 concentration is greater than 35 μg/m ³ , and then as shown in step 62, the control platform server 2 starts The 34 electronic billboard warns and informs the teachers and students in the indoor environment to close the windows and automatically turn on the air conditioner 31. Or, as shown in step 63, the control platform server 2 determines that the outdoor PM2.5 concentration is less than 35μg/m ³ and the indoor temperature is less than 28°C, and then as shown in step 63, the control platform server 2 turns off the air conditioner The computer 31 is activated, and the electronic billboard 34 is activated to notify teachers and students in the indoor environment to open windows to maintain air circulation.

In summary, the new intelligent environment system has at least the following advantages and functions: (1) The control platform server 2 can automatically control the indoor environment comfortably and energy-savingly according to indoor temperature, outdoor temperature, indoor humidity, and outdoor humidity. In this way, a more comfortable indoor environment can be constructed, and the electricity cost of the air conditioner 31, electric fan 32 and other equipment in the indoor environment can be saved; (2) The control platform server 2 uses the electronic signage according to the carbon dioxide concentration of the indoor environment 34 Warn whether the carbon dioxide concentration value is within the normal range, or whether it has exceeded the standard value of 700ppm, and can use the horn 35 to warn when the carbon dioxide concentration exceeds the standard, and then automatically turn on the exhaust fan 33 to exhaust when the carbon dioxide concentration exceeds the standard In order to reduce the carbon dioxide concentration, even automatically send out a voice to persuade people to leave indoors, and simultaneously send a message to notify the manager to proceed; (3) Indoor PM2.5 concentration is less than 35μg/m ³ and outdoor PM2.5 concentration is greater than 35μg/m ^In the case of ³ , the control platform server 2 activates the 34 electronic billboard alarm and notifies the teachers and students in the indoor environment to close the windows, and automatically turns on the air conditioner 31, and the outdoor PM2.5 concentration is less than 35μg/m ³ And when the indoor temperature is less than 28°C, the control platform server 2 turns off the air conditioner 31 and activates the electronic sign 34 to notify teachers and students in the indoor environment to open windows to maintain air circulation. Therefore, it can indeed achieve the purpose of costing a new type.

However, the above-mentioned are only examples of the present model. When the scope of implementation of the present model cannot be limited by this, all simple equivalent changes and modifications made in accordance with the patent scope of the present model application and the contents of the patent specification still belong to This new patent covers the scope.

11: Indoor temperature sensor 12: Outdoor temperature sensor 13: Indoor humidity sensor 14: Outdoor humidity sensor 15: Carbon dioxide concentration sensor 16: Indoor PM2.5 concentration sensor 17: Outdoor PM2.5 concentration sensor 2: Control platform server 31: Air conditioner 32: electric fan 33: Exhaust fan 34: Electronic signage 35: Horn 36: Manager Internet Device 40~428: steps 50~548: steps 60~64: Step

Other features and effects of the present invention will be clearly presented in the embodiments with reference to the drawings, among which: Figure 1 is a functional block diagram illustrating an embodiment of the new smart environment system; Figure 2 is a flowchart illustrating the comfort and energy saving control process in this embodiment; Figure 3 is a flowchart illustrating the air quality warning control process in this embodiment; Figure 4 is a schematic diagram of a display screen illustrating the display screen of the electronic signage in this embodiment; and Figure 5 is a flow chart illustrating the PM2.5 concentration control process in this embodiment.

11: Indoor temperature sensor

12: Outdoor temperature sensor

13: Indoor humidity sensor

14: Outdoor humidity sensor

15: Carbon dioxide concentration sensor

16: Indoor PM2.5 concentration sensor

17: Outdoor PM2.5 concentration sensor

2: Control platform server

31: Air conditioner

32: electric fan

33: Exhaust fan

34: Electronic signage

35: Horn

36: Manager Internet Device

Claims (15)

A smart environment system, suitable for comfortable energy-saving control of indoor environment, and air quality warning control, and includes: An indoor temperature sensor, which is set in the indoor environment and used to sense the indoor temperature of the indoor environment; The outdoor temperature sensor is arranged outside the indoor environment and used to sense the outdoor temperature outside the indoor environment; An indoor humidity sensor, which is set in the indoor environment and used to sense the indoor humidity of the indoor environment; The outdoor humidity sensor is arranged outside the indoor environment and used to sense outdoor humidity outside the indoor environment; An indoor PM2.5 concentration sensor, which is set in the indoor environment and used to sense the indoor PM2.5 concentration of the indoor environment; The outdoor PM2.5 concentration sensor is arranged outside the indoor environment and used to sense the outdoor PM2.5 concentration outside the indoor environment; A carbon dioxide concentration sensor, arranged in the indoor environment, and used to sense the carbon dioxide concentration of carbon dioxide in the indoor environment; and Control platform server, electrically connected to the indoor temperature sensor, the outdoor temperature sensor, the indoor humidity sensor, the outdoor humidity sensor, and the indoor PM2.5 concentration sensor , The outdoor PM2.5 concentration sensor, and the carbon dioxide concentration sensor, based on the indoor temperature, the outdoor temperature, the indoor humidity, the outdoor humidity, and the indoor PM2.5 concentration , The outdoor PM2.5 concentration and the carbon dioxide concentration are used for comfortable and energy-saving control of the indoor environment and air quality warning control. The smart environment system according to claim 1, further comprising an air conditioner, wherein the air conditioner is set in the indoor environment and is electrically connected to the control platform server, if the control platform server determines that If the indoor temperature or the outdoor temperature is less than 28°C, the air conditioner is turned off. The smart environment system according to claim 2, further comprising an electric fan, wherein the electric fan is set in the indoor environment and is electrically connected to the control platform server, if the control platform server determines that the indoor environment If the temperature is greater than or equal to 25°C and less than 28°C, the electric fan is turned on. The smart environment system according to claim 2, further comprising an electric fan, wherein the electric fan is set in the indoor environment and is electrically connected to the control platform server, if the control platform server determines that the indoor environment If the temperature is less than 25°C, or the indoor humidity is greater than 85%, the electric fan is turned off. The smart environment system according to claim 1, further comprising an air conditioner and an electric fan, wherein the air conditioner and the electric fan are set in the indoor environment and are electrically connected to the control platform server, if the The control platform server determines that the indoor temperature and the outdoor temperature are greater than or equal to 28°C, and then turns on the air conditioner and the electric fan. The smart environment system according to claim 5, wherein, if the control platform server determines that the indoor temperature and the outdoor temperature are greater than or equal to 32°C, the air conditioner and the electric fan are turned on, and the The set temperature of the air conditioner is automatically set to 28°C. The smart environment system according to claim 5, wherein if the control platform server determines that the indoor temperature is greater than or equal to 32°C, and the outdoor temperature is less than 32°C, the air conditioner and the electric fan are turned on , And automatically set the set temperature of the air conditioner to 26°C. The smart environment system according to claim 5, wherein if the control platform server determines that the indoor temperature is less than 30°C, or the outdoor humidity is greater than 85%, the electric fan is turned on, and the air conditioner is turned on Set to air supply mode. The smart environment system according to claim 1, further comprising an electronic signage electrically connected to the control platform server and set in the indoor environment, wherein the defined carbon dioxide concentration standard value is 700 ppm, if the control platform server If it is determined that the carbon dioxide concentration is less than or equal to 450 ppm, the electronic signage is made to display that the carbon dioxide concentration is within the normal range. If the control platform server determines that the carbon dioxide concentration is greater than 450 ppm and less than or equal to 700 ppm, then the The electronic billboard shows that the carbon dioxide concentration has increased but has not exceeded the standard value of the carbon dioxide concentration. The smart environment system according to claim 1, further comprising an electronic signage electrically connected to the control platform server and set in the indoor environment, wherein the defined carbon dioxide concentration standard value is 700 ppm, if the control platform server It is determined that the carbon dioxide concentration is greater than 700 ppm, and the electronic signboard is made to display that the carbon dioxide concentration has exceeded the standard value of the carbon dioxide concentration. The smart environment system according to claim 10, further comprising a speaker electrically connected to the control platform server and arranged in the indoor environment, wherein, if the control platform server determines that the carbon dioxide concentration is greater than 700 ppm and less than If it is equal to 1000 ppm, the horn will emit a warning sound. The smart environment system of claim 10, further comprising an exhaust fan electrically connected to the control platform server and arranged in the indoor environment, wherein, if the control platform server determines that the carbon dioxide concentration is greater than 1000 ppm and If it is less than or equal to 2500 ppm, the electronic signage is made to display that the carbon dioxide concentration has seriously exceeded the standard value of the carbon dioxide concentration, and the exhaust fan is turned on. The smart environment system according to claim 10, further comprising an exhaust fan and a loudspeaker electrically connected to the control platform server and arranged in the indoor environment, and a manager Internet device used by the manager, wherein, if the The control platform server determines that the carbon dioxide concentration is greater than 2500ppm, and then the speaker will send out a voice alarm to persuade you to leave, and the exhaust fan will be turned on, and a reminder message will be sent to the manager’s Internet device to remind the manager to proceed. . The smart environment system according to claim 1, further comprising an electronic signage and an air conditioner electrically connected to the control platform server and installed in the indoor environment, wherein if the control platform server determines that the indoor PM2 .5 If the concentration is less than 35 μg/m ³ , and the outdoor PM2.5 concentration is greater than 35 μg/m ³ , the electronic billboard alarm is activated and the personnel in the indoor environment are notified to close the windows, and the air conditioner is automatically turned on. The smart environment system according to claim 1, further comprising an electronic sign and an air conditioner electrically connected to the control platform server and set in the indoor environment, wherein if the control platform server determines that the outdoor PM2 .5 If the concentration is less than 35 μg/m ³ , and the indoor temperature is less than 28° C., the air conditioner is automatically turned off, and the electronic billboard is activated to notify the people in the indoor environment to open windows to maintain air circulation.

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