Artificial intelligence fresh air system
1. An artificial intelligence fresh air system which characterized in that: the system comprises an equipment end (1), a mobile control end (3) and a data connection unit (2) for connecting information between the equipment end (1) and the mobile control end (3);
the equipment end (1) is used for collecting indoor air and treating the indoor air according to the collected air;
the mobile control end (3) is used for controlling the air quality parameters and the air ventilation mode of the equipment end (1);
the data connection unit (2) is used for transmitting data of the mobile control end (3) for controlling the equipment end (1) to the equipment end (1) and transmitting information of the data acquired and processed by the equipment end (1) to the mobile control end (3).
2. The artificial intelligence fresh air system of claim 1, wherein: the equipment end (1) comprises an air processing unit (11), a temperature processing unit (12) and a warning unit (13);
the air processing unit (11) is used for processing indoor air and judging whether the indoor air needs to be processed and replaced;
the temperature processing unit (12) is used for collecting indoor temperature and adjusting the indoor temperature according to the collected temperature;
the warning unit (13) is used for limiting the content of each component in the indoor air and warning when the indoor air quality exceeds the limit.
3. The artificial intelligence fresh air system of claim 2, wherein: the air processing unit (11) comprises an air stirring module (111), an air collecting module (112), a gas replacing module (113) and an oxygenation module(115)、CO2A processing module (116) and a disinfection and sterilization module (117);
the air stirring module (111) is used for stirring the air in the room;
the air collection module (112) is used for collecting the flowing air stirred by the air stirring module (111), processing the collected data and transmitting the processed data to the gas exchange module (113);
the gas replacement module (113) is used for receiving the information of the air data transmitted by the air acquisition module (112) and processing or replacing the indoor air according to the acquired data information;
the oxygenation module (115) is used for supplementing the indoor oxygen content;
the CO is2The processing module (116) is used for collecting CO in the room2The content of (A);
the disinfection and sterilization module (117) is used for disinfecting and sterilizing indoor air and air entering the indoor from the outside.
4. The artificial intelligence fresh air system of claim 3, wherein: the air stirring module (111) comprises an indoor blowing module (1111), a wind speed measuring module (1112) and a somatosensory prediction module (1113);
the indoor blowing module (1111) is used for blowing air indoors;
the wind speed measuring module (1112) is used for detecting the wind speed in a room and transmitting the detected wind speed to the wind speed measuring module (1112);
the somatosensory prediction module (1113) receives the wind speed information of the wind speed measurement module (1112), predicts the somatosensory of a human body according to the received wind speed information, and controls the blowing speed of the indoor blowing module (1111) according to the prediction result.
5. The artificial intelligence fresh air system of claim 4, wherein: the somatosensory prediction module (1113) adopts the formula of somatosensory prediction judgment:
wherein, 0.127m/s-0.25m/s is the comfortable range of the human body blowing speed, V is the air volume passing through a certain area, L is the length of the measured air volume, and t is the time of a section of air passing through the length L.
6. The artificial intelligence fresh air system of claim 3, wherein: the gas replacement module (113) comprises an outside gas capture module (1131), a gas filtering module (1132) and a gas damp eliminating module (1133);
the outside air capturing module (1131) is used for capturing outdoor air and transmitting the captured air to the air filtering module (1132);
the gas filtering module (1132) is used for filtering the air captured by the external gas capturing module (1131);
the gas dampness eliminating module (1133) is used for collecting humidity of air filtered by the gas filtering module (1132), and filtering and dampness eliminating air with overlarge humidity.
7. The artificial intelligence fresh air system of claim 2, wherein: the warning unit (13) comprises an air quality limit setting module (131) and an abnormal sound prompt module (132);
the air quality limit setting module (131) is used for setting warning data of each gas content in the air and carrying out staged air collection on the indoor air;
the abnormal sound prompt module (132) is used for giving out a warning after the air quality limit setting module (131) detects that the content of a certain substance in the indoor air reaches a warning value.
8. The artificial intelligence fresh air system of claim 7, wherein: the equipment end (1) further comprises an emergency processing unit (14), wherein the emergency processing unit (14) comprises a toxic gas detection module (141) and a quick ventilation module (142);
the toxic gas detection module (141) is used for detecting indoor toxic gas and sending signals to the quick ventilation module (142) and the abnormal sound prompt module (132) after the toxic gas is detected;
the quick ventilation module (142) is used for sending a signal for quickly replacing indoor air to the gas replacement module (113) when the toxic gas detection module (141) detects that toxic gas exists indoors.
9. The artificial intelligence fresh air system of claim 1, wherein: the mobile control end (3) comprises an air quality regulation and control unit (31), an air mode selection unit (32) and a display unit (33);
the air quality regulation and control unit (31) is used for regulating and controlling each processing unit of the equipment end (1);
the air mode selection unit (32) is used for changing the mode of air replacement of the equipment end (1);
the display unit (33) is used for displaying the operation interface and displaying the data transmitted by the mobile control terminal (3).
10. The artificial intelligence fresh air system of claim 2, wherein: the air processing unit (11) further comprises a gas temperature adjusting module (114), wherein the gas temperature adjusting module (114) comprises a temperature data collecting module (1141), a temperature heating module (1142) and a temperature cooling module (1143);
the temperature heating module (1142) is used for heating air captured from the outside;
the temperature cooling module (1143) is used for cooling air captured from the outside;
the temperature data collection module (1141) is used for collecting the air temperature introduced into the room by the gas replacement module (113), and comparing the collected air temperature with the room temperature, wherein the comparison formula is as follows:
N-2<n<N+2
where N is the pre-achieved indoor temperature set indoors and N is the temperature of the air captured from the outside.
Background
With the development of society, people are more concerned about the quality of living environment to ensure their health. In order to improve the life quality of people, many people use auxiliary equipment to replace indoor air, so that the indoor air is kept in a fresh state all the time, and people in the room feel comfortable.
However, when the existing equipment is used for exchanging air indoors, the equipment directly operates according to a set mode, the operation state cannot be automatically adjusted according to the indoor air condition, and when the air is replaced, only the air near the equipment can be replaced, the replacement time of the indoor air is long, the indoor comfort level of people is easily reduced, and meanwhile when harmful gas is detected indoors, the indoor air cannot be rapidly treated according to special conditions, so that the people moving indoors have life safety hazards.
Disclosure of Invention
The present invention is directed to an artificial intelligence fresh air system to solve the problems set forth in the background art.
In order to achieve the aim, the invention provides an artificial intelligence fresh air system, which comprises an equipment end, a mobile control end and a data connection unit, wherein the data connection unit is used for connecting information between the equipment end and the mobile control end;
the equipment end is used for collecting indoor air and processing the indoor air according to the collected air;
the mobile control end is used for controlling the air quality parameters and the air ventilation mode of the equipment end;
the data connection unit is used for transmitting data of the mobile control end control equipment end to the equipment end and transmitting information of the data acquired and processed by the equipment end to the mobile control end.
As a further improvement of the technical scheme, the equipment end comprises an air processing unit, a temperature processing unit and a warning unit;
the air processing unit is used for processing indoor air and judging whether the indoor air needs to be processed or replaced;
the temperature processing unit is used for collecting indoor temperature and adjusting the indoor temperature according to the collected temperature;
the warning unit is used for limiting the content of each component in the indoor air and warning when the indoor air quality exceeds the limit.
As a further improvement of the technical scheme, the air processing unit comprises an air stirring module, an air collecting module, a gas replacing module, an oxygenation module and CO2A processing module and a disinfection and sterilization module;
the air stirring module is used for stirring the air in the room;
the air acquisition module is used for acquiring the flowing air stirred by the air stirring module, processing the acquired data and transmitting the processed data to the gas replacement module;
the air replacing module is used for receiving the information of the air data transmitted by the air collecting module and processing or replacing the indoor air according to the collected data information;
the oxygenation module is used for supplementing indoor oxygen content;
the CO is2The processing module is used for collecting indoor CO2And CO in the room2At too high a concentration, it is possible to control CO2Treating the content of (A);
the disinfection and sterilization module is used for disinfecting and killing indoor air and air entering the room from the outside.
As a further improvement of the technical scheme, the air stirring module comprises an indoor blowing module, a wind speed measuring module and a somatosensory predicting module;
the indoor blowing module is used for blowing air indoors;
the wind speed measuring module is used for detecting indoor wind speed and transmitting the detected wind speed to the wind speed measuring module;
the somatosensory prediction module receives the wind speed information of the wind speed measurement module, predicts human somatosensory according to the received wind speed information, and controls the blowing speed of the indoor blowing module according to the prediction result.
As a further improvement of the technical solution, the somatosensory prediction module adopts the following formula:
wherein, 0.127m/s-0.25m/s is the comfortable range of the human body blowing speed, V is the air volume passing through a certain area, L is the length of the measured air volume, and t is the time of a section of air passing through the length L.
As a further improvement of the technical scheme, the gas replacement module comprises an outside gas capture module, a gas filtering module and a gas damp eliminating module;
the external gas capturing module is used for capturing outdoor air and transmitting the captured air to the gas filtering module;
the gas filtering module is used for filtering the air captured by the external gas capturing module;
the air dampness eliminating module is used for collecting humidity of air filtered by the air filtering module and filtering and dampness eliminating air with overlarge humidity.
As a further improvement of the technical scheme, the warning unit comprises an air quality limit setting module and an abnormal sound prompting module;
the air quality limit setting module is used for setting warning data of each gas content in the air and carrying out staged air collection on the indoor air;
the abnormal sound prompting module is used for sending out a warning after the air quality limit setting module detects that the content of a certain substance in the indoor air reaches a warning value.
As a further improvement of the technical scheme, the equipment end further comprises an emergency processing unit, and the emergency processing unit comprises a toxic gas detection module and a quick ventilation module;
the toxic gas detection module is used for detecting indoor toxic gas and sending signals to the quick ventilation module and the abnormal sound prompt module after the toxic gas is detected;
the quick ventilation module is used for sending a signal for quickly replacing indoor air to the gas replacement module when the toxic gas detection module detects that toxic gas exists indoors.
As a further improvement of the technical scheme, the mobile control end comprises an air quality regulation and control unit, an air mode selection unit and a display unit;
the air quality regulation and control unit is used for regulating and controlling each processing unit at the equipment end;
the air mode selection unit is used for changing the mode of air replacement at the equipment end;
the display unit is used for displaying the operation interface and displaying the data transmitted by the mobile control terminal.
As a further improvement of the technical scheme, the air processing unit further comprises a gas temperature adjusting module, wherein the gas temperature adjusting module comprises a temperature data collecting module, a temperature heating module and a temperature cooling module;
the temperature heating module is used for heating air captured from the outside;
the temperature cooling module is used for cooling air captured from the outside;
the temperature data collection module is used for collecting the air temperature introduced into the room by the gas replacement module and comparing the collected air temperature with the room temperature, and the comparison formula is as follows:
N-2<n<N+2
where N is the pre-achieved indoor temperature set indoors and N is the temperature of the air captured from the outside.
Compared with the prior art, the invention has the beneficial effects that:
1. in this artificial intelligence fresh air system, mix indoor air through the air handling unit that sets up, make the air activity of indoor deposit get up, make equipment when handling and gathering the indoor air that goes on, can gather accurate numerical value, mix indoor air through air handling unit simultaneously, so that equipment catches indoor air, accelerate the processing speed of equipment to indoor air, make the people indoor can be quick breathe fresh air.
2. In this artificial intelligence fresh air system, mix the module through the air that sets up and mix indoor air to the speed of blowing through the wind speed measuring module to the indoor module of blowing detects, makes the wind that the wind speed measuring module blew off in the comfortable within range that people bloied, improves personnel's comfortable degree in room.
3. In this artificial intelligence fresh air system, the harmful gas in the emergency treatment unit to the indoor air through setting up detects to after detecting harmful gas, through taking a breath the module control air treatment unit fast and to indoor quick taking a breath, make the quick outdoor of discharging of indoor toxic gas, avoid the health of the personnel because of absorbing too much toxic gas harm indoor, improve personnel's life safety guarantee ability in room.
4. In this artificial intelligence fresh air system, the gas temperature regulating module who sets up heaies up and cools down to the air that prepares to enter into indoor, makes and enters into indoor air and indoor temperature imitative, has avoided entering into indoor temperature that changes because of external air, and then has improved the comfort level of people at indoor activity.
5. In the artificial intelligent fresh air system, the oxygen increasing module and the CO are arranged2The processing module carries out indoor oxygenation and CO removal2In such an amount that the oxygen content and CO in the room2The content is in the specified range, and the disinfection and sterilization module is arranged to sterilize the air which is indoor and enters the room, so that the air in the room has no harmful bacteria, and people can breathe in the room healthily。
Drawings
FIG. 1 is an overall block diagram of embodiment 1 of the present invention;
FIG. 2 is a block diagram of an air treatment unit according to embodiment 1 of the present invention;
FIG. 3 is a block diagram of an air-stirring module according to embodiment 1 of the present invention;
FIG. 4 is a block diagram of a gas replacement module according to embodiment 1 of the present invention;
FIG. 5 is a block diagram of a gas temperature regulating module according to embodiment 1 of the present invention;
FIG. 6 is a block diagram of a temperature processing unit according to embodiment 1 of the present invention;
FIG. 7 is a block diagram of an alarm unit according to embodiment 1 of the present invention;
fig. 8 is an overall flowchart of embodiment 1 of the present invention.
The various reference numbers in the figures mean:
1. an equipment end;
11. an air handling unit;
111. an air agitation module; 1111. an indoor blowing module; 1112. a wind speed measuring module; 1113. a somatosensory prediction module;
112. an air collection module; 113. a gas exchange module; 1131. an ambient gas capture module; 1132. a gas filtration module; 1133. a gas dampness eliminating module;
114. a gas temperature adjustment module; 1141. a temperature data collection module; 1142. a temperature heating module; 1143. a temperature reduction module;
115. an oxygenation module; 116. CO 22A processing module; 117. a disinfection and sterilization module;
12. a temperature processing unit;
13. a warning unit; 131. an air quality limit setting module; 132. an abnormal sound prompt module;
14. an emergency processing unit; 141. a toxic gas detection module; 142. a quick ventilation module;
2. a data connection unit;
3. a mobile control end; 31. an air quality regulation unit; 32. an air mode selection unit; 33. a display unit.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.
Example 1
The invention provides an artificial intelligence fresh air system, please refer to fig. 1-8, which comprises an equipment end 1, a mobile control end 3 and a data connection unit 2 for connecting information between the equipment end 1 and the mobile control end 3;
the equipment end 1 is used for collecting indoor air and processing the indoor air according to the collected air;
the equipment end 1 comprises an air processing unit 11, a temperature processing unit 12 and a warning unit 13;
the air processing unit 11 is used for processing indoor air and judging whether the indoor air needs to be replaced;
the air treatment unit 11 includes an air agitation module 111, an air collection module 112, a gas exchange module 113, an oxygen increasing module 115, and CO2A processing module 116 and a sterilization module 117;
the air stirring module 111 is used for stirring the air in the room to make the air in the room flow;
the air agitation module 111 includes an indoor blowing module 1111, a wind speed measurement module 1112, and a somatosensory prediction module 1113;
the indoor blowing module 1111 is used for blowing air indoors, blowing the air indoors to enable the air indoors to flow, and stirring the air indoors deposited at the bottom so as to bring the air indoors away by the equipment;
the wind speed measurement module 1112 is configured to detect a wind speed indoors and transmit the detected wind speed to the wind speed measurement module 1112;
the somatosensory prediction module 1113 receives the wind speed information of the wind speed measurement module 1112, predicts the somatosensory of the human body according to the received wind speed information, and controls the blowing speed of the indoor blowing module 1111 according to the prediction result.
The somatosensory prediction module 1113 somatosensory prediction judgment formula is as follows:
wherein, 0.127m/s-0.25m/s is the comfortable range of the human body blowing speed, V is the air volume passing through a certain area, L is the length of the measured air volume, and t is the time of a section of air passing through the length L; when in useWhen the wind speed is too low, the motion sensing prediction module 1113 sends a signal to the indoor blowing module 1111 to increase the speed of stirring the indoor air by the indoor blowing module 1111, and when the wind speed is too lowWhen the wind speed is too high, the motion sensing prediction module 1113 sends a signal to the indoor blowing module 1111 to make the indoor blowing module 1111 reduce the speed of stirring the indoor air, so as to keep the indoor wind speed within the range of 0.127-0.25 m/s and make people feel comfortableThe wind speed of (d);
the air collection module 112 is used for collecting the flowing air stirred by the air stirring module 111, processing the collected data and transmitting the processed data to the gas exchange module 113;
the gas replacement module 113 is used for receiving the information of the air data transmitted by the air collection module 112 and processing or replacing the indoor air according to the collected data information;
the gas replacement module 113 includes an ambient gas capture module 1131, a gas filtration module 1132, and a gas dampness removal module 1133;
the external air capturing module 1131 is configured to capture outdoor air and transmit the captured air to the air filtering module 1132;
the gas filtering module 1132 is configured to filter the air captured by the external gas capturing module 1131, remove particle impurities such as dust in the air, and improve the quality of the air entering the room;
the air dehumidifying module 1133 is configured to collect humidity of the air filtered by the air filtering module 1132, and filter and dehumidify the air with too high humidity, so that the humidity of the air entering the room is suitable;
the air processing unit 11 further comprises a gas temperature adjusting module 114, wherein the gas temperature adjusting module 114 comprises a temperature data collecting module 1141, a temperature heating module 1142 and a temperature cooling module 1143;
the temperature heating module 1142 is used for heating the air captured from the outside to raise the temperature of the air from the outside;
the temperature reduction module 1143 is used for reducing the temperature of the air captured from the outside to reduce the temperature of the air from the outside;
the temperature data collecting module 1141 is used for collecting the air temperature introduced into the room by the gas exchange module 113, and comparing the collected air temperature with the room temperature, wherein the comparison formula is as follows:
N-2<n<N+2
wherein N is a pre-reached indoor temperature set indoors, and N is a temperature of air captured from the outside; when the value of N is between (N-2, N +2), do not handle the air of external seizure, when N < N-2, heat the air through temperature heating module 1142, make the temperature of air rise to between (N-2, N +2), when N > N +2, cool down the air of external seizure through temperature cooling module 1143, make the air of external seizure fall to between (N-2, N +2), make the air that enters into the room produce too big influence to indoor holistic temperature, and then guarantee the comfort level that the indoor air felt the human body.
The oxygen increasing module 115 is used for filling the indoor oxygen content, the oxygen increasing module 115 is placed outdoors, and according to the collected data of the air processing unit 11, when the oxygen content is O2Is started when the volume ratio of (A) is less than 19.5 percent and is stopped when the volume ratio of (B) is more than 21.5 percent;
CO2the processing module 116 is used to collect the indoor CO2And CO in the room2At too high a concentration, it is possible to control CO2Treating the content of (A); when indoor air is CO2When the content is more than 1200ppm, the module is started to convert CO into CO2Conversion to O2And a settleable material;
the disinfection and sterilization module 117 is used for disinfecting and sterilizing indoor air and air entering from the outdoor to the indoor, and selectively disinfecting and sterilizing viruses and bacteria in the air under the condition of not destroying probiotic flora in the environment.
The temperature processing unit 12 is used for collecting indoor temperature and adjusting the indoor temperature according to the collected temperature;
the warning unit 13 is used for limiting the content of the partition component in the indoor air and warning when the indoor air quality exceeds the limit
The warning unit 13 includes an air quality limit setting module 131 and an abnormal sound prompt module 132;
the air quality limit setting module 131 is used for setting warning data of each gas content in the air and performing staged air collection on the indoor air;
the abnormal sound prompting module 132 is configured to send a warning after the air quality limit setting module 131 detects that the content of a certain substance in the indoor air reaches a warning value, so that the indoor person can know the warning and can quickly prepare for an emergency;
the equipment terminal 1 further comprises an emergency processing unit 14, wherein the emergency processing unit 14 comprises a toxic gas detection module 141 and a quick ventilation module 142;
the toxic gas detection module 141 is used for detecting indoor toxic gas, and sending signals to the quick ventilation module 142 and the abnormal sound prompt module 132 after detecting the toxic gas, and the abnormal sound prompt module 132 sends out a warning sound immediately after receiving the signal sent by the toxic gas detection module 141 to remind indoor personnel, so that the life safety of the personnel is ensured;
the quick ventilation module 142 is used for sending a signal for quickly replacing indoor air to the gas replacement module 113 when the toxic gas detection module 141 detects that toxic gas exists indoors;
the mobile control end 3 is used for controlling the air quality parameters and the air ventilation mode of the equipment end 1;
the data connection unit 2 is used for transmitting data of the mobile control terminal 3 controlling the equipment terminal 1 to the equipment terminal 1 and transmitting information of the data acquired and processed by the equipment terminal 1 to the mobile control terminal 3;
the mobile control terminal 3 comprises an air quality regulation unit 31, an air mode selection unit 32 and a display unit 33;
the air quality regulation and control unit 31 is used for regulating and controlling the temperature of the equipment end 1;
the air mode selection unit 32 is used for changing the mode of air replacement of the equipment terminal 1, so that the replaced air is suitable for the user;
the display unit 33 is used for displaying the operation interface and displaying the data transmitted from the mobile control terminal 3
When the device terminal 1, the data connection unit 2, and the mobile control terminal 3 in this embodiment are used, a user adjusts the working state of the device terminal 1 by selecting the modes of the air quality control unit 31 and the air mode selection unit 32, and when the user selects the working mode of the device terminal 1 by using the air quality control unit 31 and the air mode selection unit 32Then, the data connection unit 2 receives the mode information selected by the mobile control terminal 3, and transmits the information of the mobile control terminal 3 to the equipment terminal 1, after the equipment terminal 1 receives the information of the mobile control terminal 3, the indoor blowing module 1111 is controlled to start blowing air indoors, so that the indoor air starts to move, and the equipment terminal 1 can capture and collect the indoor air conveniently, meanwhile, the wind speed measurement module 1112 performs speed measurement on the wind blown out by the indoor blowing module 1111, so that the wind speed of the indoor blowing module 1111 is within a specified range, after the air stirring module 111 stirs the indoor air, the air collection module 112 collects the indoor air in and out and transmits the collected information to the gas replacement module 113, the gas replacement module 113 captures and filters the outside air according to the information transmitted by the air collection module 112, when the humidity of the outside air is too high, dispel the damp to the air in the external world, it disinfects through disinfection module 117 to enter into indoor air simultaneously, the quality of air is improved, when gaseous change module 113 catches the air, gas temperature regulation module 114 gathers the temperature of the air in the external world, and heat or cool down to the temperature in the external world according to the temperature information who gathers, make the air in the external world enter into indoor back, can not influence indoor temperature, when emergency treatment unit 14 detects indoor toxic gas, send the instruction of taking a breath fast to air treatment unit 11 through quick ventilation module 142, gaseous change module 113 this moment works with maximum power, in order to accomplish that the fastest speed is with indoor air more change, in order to guarantee indoor personnel's life safety, when CO2CO respectively collected by the processing module 116 and the oxygenation module 1152Excessive amount of O2When the content of (A) is too small, CO2The processing module 116 will process the CO in the chamber2Conversion to O2And settleable material and oxygen enrichment module 115 to increase indoor O2And (4) content.
The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.
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