CN113685974B - Intelligent control module of five-constant-environment human body self-adaptive adjusting unit - Google Patents
Intelligent control module of five-constant-environment human body self-adaptive adjusting unit Download PDFInfo
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
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Abstract
The invention discloses an intelligent control module of a five-constant environment human body self-adaptive adjusting unit, and belongs to the technical field of environment adjustment. The control module comprises a five-constant-environment human body adaptive regulator system control panel, a cloud IOT command center and a remote cloud server, the intelligent control module comprises an information acquisition module, a CPU module, a touch screen and an execution module, and the control panel comprises a power module, the execution module, the information acquisition module, the CPU, a communication board, the touch screen, a WiFi module and a 485 communication interface.
Description
Technical Field
The invention relates to the technical field of environment regulation, in particular to an intelligent control module of a five-constant environment human body self-adaptive regulator set.
Background
People pay more and more attention to the environment and health at present, and a healthy, comfortable and safe indoor living environment is urgently needed, microorganisms deposited on a water collecting disc, a pipeline and a filter of a fan coil of the mechanical ventilation of a central air conditioner can be brought into a room by ventilation airflow, so that the propagation of viruses is aggravated, and the traditional central air conditioning system cannot effectively control humidity in the using process due to a convection system, so that indoor dust is easy to raise, and chronic lung diseases are frequently caused.
The existing intelligent control module of the environment human body adjusting unit can only perform simplification processing on the temperature of indoor environment in life, relative humidity, air quality, air flow rate and noise, comprehensive processing cannot be performed through integrated products, the using effect of the intelligent control module of the human body self-adaptive adjusting unit is reduced, and no reliable and stable systematic products are provided, so that the environment in a building space such as temperature, relative humidity, air quality, air flow rate and noise automatically adapt to various human body requirements, viruses or bacteria can be rapidly spread among people in life, threat is caused to life safety of the human body, and the requirement of substances can not meet the requirement of rapid development of living standards of people.
Therefore, people need an intelligent control module for a five-constant environment human body adaptive control unit to solve the problems.
Disclosure of Invention
The invention aims to provide an intelligent control module of a five-constant-environment human body self-adaptive control unit, which aims to solve the problems in the background technology.
In order to solve the technical problems, the invention provides the following technical scheme: comprises that
The constant environment human body adaptive regulator system control board is used for collecting data of each device and each module and executing corresponding operation instructions according to the data;
the cloud IOT command center is used for communicating with the control panel and controlling each device and each module according to the communication information;
and the remote cloud server is used for sending a service request and remotely repairing the five constant environment human body self-adaptive adjusting unit.
Further, the five-constant-environment human-body adaptive regulator system control board acquires relevant data of the closed variable frequency compressor, the evaporator and the condenser, sends an operation instruction to the closed variable frequency compressor, the evaporator and the condenser according to the acquired data, acquires data detected by the sensors in the modules, and sends an operation instruction and maintenance feedback to the modules according to the acquired data, wherein the modules comprise a constant temperature module, a constant humidity module, a constant purification module, a constant oxygen module, a sterilization module, a power module and an environment monitoring sensor module;
the cloud IOT command center is communicated with the five-constant-environment human body adaptive regulator system control board, sends out after-sales service instructions according to fault conditions of execution mechanisms of the five-constant-environment human body adaptive regulator system, receives starting information of devices and operation instructions sent out by the five-constant-environment human body adaptive regulator system control board, is used for communicating with the control board and controls equipment and modules according to communication information;
the remote cloud server is in mutual communication with the mobile phone APP, after-sale service instructions sent by the cloud IOT command center are received by the remote cloud server through the user and the mobile phone APP at the service center, after the user and the mobile phone APP at the service center receive the instructions, the remote cloud server sends service requests to the control panel of the five constant environment human body self-adaptive adjusting machine system, the remote cloud server carries out remote repair on the five constant environment human body self-adaptive adjusting machine set in a standby state, and the remote cloud server is used for sending the service requests and carrying out remote repair on the five constant environment human body self-adaptive adjusting machine set.
The five-constant environment human body adaptive regulator system control panel comprises an information acquisition module, a CPU module, a touch screen and an execution module;
the information acquisition module acquires data detected by sensors in the modules, equipment data and fault data when an execution mechanism fails, and transmits acquired data information to the CPU module;
the CPU module receives the data information transmitted by the information acquisition module, performs related calculation according to the received data information, simultaneously sends an operation instruction to each device, transmits a calculation analysis result to the touch screen, and transmits the operation instruction to the execution module;
the touch screen receives a calculation analysis result transmitted by the CPU module, resets parameters of the five-constant-environment human body adaptive control unit according to the calculation result, and transmits setting completion information to the execution module;
and the execution module makes corresponding execution measures at corresponding time points according to the information and the instructions transmitted by the CPU module and the touch screen.
Furthermore, the information acquisition module comprises an equipment data acquisition unit, a module data acquisition unit and an execution mechanism fault data acquisition unit;
the equipment data acquisition unit acquires relevant data of the closed frequency conversion compressor, the evaporator and the condenser in the working process and transmits acquired data information to the CPU module;
the module data acquisition unit acquires data detected by sensors in the constant temperature module, the constant humidity module, the constant purification module, the constant oxygen module, the sterilization module, the power module and the environment monitoring sensor module, and transmits acquired data information to the CPU module, the module data acquisition unit can monitor the air quality condition of a space, the change of a space temperature field (such as high fever caused by children, sudden change caused by too many people, indoor fire and the like), dirty air, peculiar smell of air and gas leakage of the space, when the module data acquisition unit acquires the data of each module, the CPU module can rapidly and accurately calculate the active demand and the passive demand of a human body, when the dirty air of the space, the peculiar smell removal device and the negative oxygen ion generator are monitored, when the change of the space temperature field is monitored, a command is sent to the execution module to eliminate, and an alarm and operation information is sent to an owner and an IOT platform are monitored;
the executing mechanism fault data acquisition unit acquires fault information of each executing mechanism of the five-constant-environment human body adaptive regulator set after the executing mechanisms have faults and transmits the acquired fault information to the CPU module.
Further, the CPU module comprises a calculation analysis unit, a dehumidification humidification unit and an operation instruction sending unit;
the calculation analysis unit receives the data information transmitted by the equipment data acquisition unit, the module data acquisition unit and the executing mechanism fault data acquisition unit, analyzes whether an operation instruction needs to be sent or not through calculation, transmits an analysis result to the operation instruction sending unit, and transmits the calculation result to the touch screen, wherein a specific calculation formula is as follows:
the calorific value of human body per hour is calculated by the formula:
the formula for calculating the human body humidity is as follows:
wherein n is the maximum number of the people in the room in the number of shifts, g is the total heat (W) emitted by each person, W is the moisture dissipating capacity (kg/h) of each person, when the Q value is higher than 130W, the heat generating capacity of the human body is higher than the normal range, and when the W value is 0.4-0.7, the moisture dissipating capacity of the human body is normal;
the dehumidification and humidification unit receives data information transmitted by the module data acquisition unit, compares data measured by a sensor in the constant humidity module with humidity data of human body demand calculated by the calculation and analysis unit, analyzes whether a relevant instruction needs to be sent to equipment for controlling the dehumidification and humidification unit or not, and transmits an analysis result to the operation instruction sending unit;
the operation instruction sending unit receives the analysis results of the calculation analysis unit and the dehumidification and humidification unit, sends an operation instruction according to the results, and sends the operation instruction to the execution module.
Furthermore, the touch screen is connected with the communication board, the touch screen resets parameters of the five-constant-environment human body self-adaptive control unit according to a calculation result of the calculation and analysis unit, automatically adjusts the temperature, the humidity and the cleanliness of space air and prevents germ invasion, the touch screen can set local services and remote services, the remote services refer to services operated in other applications, and the local services refer to services operated in the applications.
Furthermore, the execution module receives the operation instruction sent by the operation instruction sending unit, controls the working states of a fan, a four-way valve, a compressor, a humidifier, an enthalpy-increasing valve, a crankshaft and an expansion valve which control the dehumidification and humidification unit according to the received operation instruction, and sends the operation instruction to the constant temperature module, the constant humidity module, the constant purification module, the constant oxygen module, the sterilization module, the power module and the environment monitoring sensor module.
Further, human self-adaptation regulator system control panel of five permanent environment includes power module, information acquisition module, CPU module, touch-sensitive screen, execution module, communication board, wiFi module and communication interface, the CPU module is connected with power module, the CPU module with link to each other through communication mode between the communication board, the touch-sensitive screen is connected with the communication board, high in the clouds IOT command center with communicate through the wiFi module between the communication board, long-range high in the clouds server and cell-phone APP intercommunication, the communication requirement adopts R-serial bus standard when communication distance is tens meters to last kilometer, and RS-485 adopts balanced sending and differential to receive, consequently has the ability of suppressing common mode interference.
Compared with the prior art, the invention has the following beneficial effects:
1. the invention solves the problem that the intelligent control module of the human body self-adaptive control unit in the five-constant environment can effectively monitor the data of the equipment in real time.
2. The invention can feed back the fault information of the equipment in time, find the problems and solve the problems in time, brings greater convenience to users, can truly meet the requirement that the temperature, the relative humidity, the air quality, the air flow rate and the noise of indoor environment in life change according to the requirements of human bodies, and provides guarantee for the human body self-adaptive control unit industry in five constant environments.
3. The invention further improves the use effect of the intelligent control module of the human body self-adaptive adjusting unit by comprehensively processing the temperature, the relative humidity, the air quality, the air flow rate and the noise of the indoor environment in life through the constant temperature module, the constant humidity module, the constant purification module, the constant oxygen module, the sterilization module, the power module and the environment monitoring sensor module.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:
FIG. 1 is a schematic diagram of a working flow of an intelligent control module of a five-constant-environment human body adaptive control unit according to the invention;
FIG. 2 is a schematic diagram of the relationship between control modules of an intelligent control module of a five-constant-environment human body adaptive control unit according to the present invention.
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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.
Referring to fig. 1-2, the present invention provides the following technical solutions: comprises that
The constant environment human body adaptive regulator system control board is used for collecting data of each device and each module and executing corresponding operation instructions according to the data;
the cloud IOT command center is used for communicating with the control panel and controlling each device and each module according to the communication information;
and the remote cloud server is used for sending a service request and remotely repairing the five constant environment human body self-adaptive adjusting unit.
The cloud IOT command center is communicated with the five constant environment human body adaptive regulator system control board, the cloud IOT command center is used for communicating with the devices and controlling the devices and the modules according to communication information, the remote server is communicated with a mobile phone, receives a remote cloud service selling service instruction sent by the remote server, and sends a remote cloud system repairing request to the cloud server for remote cloud repair of the five constant environment human body adaptive regulator system, and the remote server is used for sending a remote cloud system repairing request to the cloud server under the cloud APP.
The five-constant environment human body adaptive regulator system control panel comprises an information acquisition module S1, a CPU module S2, a touch screen S3 and an execution module S4;
the information acquisition module S1 acquires data detected by sensors in the modules, equipment data and fault data when an execution mechanism is in fault, and transmits acquired data information to the CPU module S2;
the CPU module S2 receives the data information transmitted by the information acquisition module S1, performs related calculation according to the received data information, simultaneously sends an operation instruction to each device, transmits a calculation analysis result to the touch screen S3, and transmits the operation instruction to the execution module S4;
the touch screen S3 receives the calculation analysis result transmitted by the CPU module S2, sets various parameters for the five-constant environment human body adaptive control unit according to the calculation result, and transmits the setting completion information to the execution module S4;
the execution module S4 takes corresponding execution measures according to the information and the instruction transmitted by the CPU module S2 and the touch screen S3.
The information acquisition module S1 comprises an equipment data acquisition unit S11, a module data acquisition unit S12 and an actuating mechanism fault data acquisition unit S13; the device data acquisition unit S11 acquires relevant data of the closed frequency conversion compressor, the evaporator and the condenser in the working process and transmits the acquired data information to the CPU module S2, the device data acquisition unit S11 is used for acquiring data of relevant devices, the module data acquisition unit S12 acquires data detected by sensors in the constant temperature module, the constant humidity module, the constant purification module, the constant oxygen module, the sterilization module, the power module and the environment monitoring sensor module and transmits the acquired data information to the CPU module S2, the module data acquisition unit S12 can monitor the space air quality condition, the space temperature field change (such as high burning of children, sudden excessive change of people, indoor fire and the like) and the air pollution, peculiar smell and gas leakage, when the module data acquisition unit S12 acquires the data of each module, the CPU module S2 can rapidly and accurately calculate the active demand and the passive demand of a human body, when the air pollution, the peculiar smell and the gas leakage of a space are monitored, the fan is started, the peculiar smell removing device and the negative oxygen ion generator are started, when the change of a space temperature field is monitored, an instruction is sent to the execution module S4 in time for elimination, an alarm is sent to an owner, and an IOT platform is sent to the owner, the module data acquisition unit S12 is used for acquiring data detected by sensors in the constant temperature module, the constant humidity module, the constant clean module, the constant oxygen module, the sterilization module, the power module and the environment monitoring sensor module, the execution mechanism fault data acquisition unit S13 is used for acquiring information after the faults of all execution mechanisms of the five constant environment human body adaptive regulator set and transmitting the acquired fault information to the CPU module S2, and the execution mechanism fault data acquisition unit S13 is used for acquiring relevant data information of all the faulted execution mechanisms And (5) collecting.
The five-constant environment human body adaptive regulator system control panel CPU module S2 comprises a calculation analysis unit S21, a dehumidification humidification unit S22 and an operation instruction sending unit S23;
the calculation and analysis unit S21 receives data information transmitted by the equipment data acquisition unit S11, the module data acquisition unit S12 and the execution mechanism fault data acquisition unit S13, analyzes whether an operation instruction needs to be sent or not by calculation, transmits an analysis result to the operation instruction sending unit S22, and transmits the calculation result to the touch screen S3, and the specific calculation formula is as follows:
the calorific value of human body per hour is calculated by the formula:
the formula for calculating the human body humidity is as follows:
wherein n is the maximum number of people in a room, g is the total heat (W) dissipated by each person, W is the moisture dissipation capacity (kg/h) of each person, when the Q value is higher than 130W, the Q value indicates that the heat of the human body is higher than the normal range, at the moment, the CPU module S2 collects the working data of the constant temperature module, and executes an operation instruction on equipment for controlling the constant temperature module through the execution module S4 according to the calculation result, when the W value is in the range of 0.4-0.7, the heat dissipation capacity of the human body is normal, when the W value is not in the range, the CPU module S2 collects the working data of the constant humidity module, and executes the operation instruction on the equipment for controlling the constant humidity module through the execution module S4 according to the calculation result;
the dehumidifying and humidifying unit S22 receives data information transmitted by the module data acquisition unit S12, compares data measured by a sensor in the constant humidity module with humidity data of human body demand calculated by the calculation and analysis unit S21, analyzes whether a relevant instruction needs to be sent to equipment for controlling the dehumidifying and humidifying unit S22, and transmits an analysis result to the operation instruction sending unit S23, the dehumidifying and humidifying unit S22 is used for controlling the working state of relevant equipment through the air humidity of the space, the operation instruction sending unit S23 receives the analysis results of the calculation and analysis unit S21 and the dehumidifying and humidifying unit S22, sends an operation instruction according to the result, and sends the operation instruction to the execution module S4, and the operation instruction sending unit S23 is used for sending an operation instruction.
The touch screen S3 is connected with the communication board, the touch screen S3 sets various parameters for the five-constant environment human body adaptive control unit according to the calculation result of the calculation and analysis unit S21, the temperature, the humidity and the cleanliness of space air are automatically adjusted, and germs are prevented from invading, the touch screen S3 can set local services and remote services, the remote services refer to services operated in other applications, the local services refer to services operated in the applications, and the touch screen S3 is used for inputting specific numerical values to relevant equipment according to the calculation result of the calculation and analysis unit S21.
The execution module S4 receives the operation instruction sent by the operation instruction sending unit S23, controls the working states of a fan, a four-way valve, a compressor, a humidifier, an enthalpy increasing valve, a crankshaft and an expansion valve which control the dehumidification and humidification unit S22 according to the received operation instruction, and sends the operation instruction to the constant temperature module, the constant humidity module, the constant purification module, the constant oxygen module, the sterilization module, the power module and the environment monitoring sensor module, and the execution module S4 is used for executing the instruction sent by the operation instruction sending unit S23.
Five human self-adaptation adjustment machine system control panels in permanent environment include power module, information acquisition module S1, CPU module S2, touch-sensitive screen S3, execution module S4, the communication board, wiFi module and 485 communication interface, CPU module S2 is connected with power module, link to each other through 485 communication methods between CPU module S2 and the communication board, touch-sensitive screen S3 is connected with the communication board, communicate through wiFi module between high in the clouds IOT command center and the communication board, long-range high in the clouds server communicates with cell-phone APP each other, 485 communication requires to adopt RS-485 serial bus standard when communication distance is tens meters to last kilometer, RS-485 adopts balanced transmission and differential receipt, consequently, the ability of common mode interference is suppressed to have.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (4)
1. The utility model provides a human self-adaptation of five permanent environment adjusts unit intelligent control module which characterized in that: comprises that
The constant environment human body adaptive regulator system control board is used for collecting data of each device and each module and executing corresponding operation instructions according to the data;
the cloud IOT command center is used for communicating with the control panel and controlling each device and each module according to the communication information;
the remote cloud server is used for sending a service request and remotely repairing the five constant environment human body self-adaptive adjusting unit;
the five-constant environment human body adaptive regulator system control panel comprises an information acquisition module (S1), a CPU module (S2), a touch screen (S3) and an execution module (S4);
the information acquisition module (S1) acquires data detected by sensors in the modules, data of equipment and fault data when an execution mechanism is in fault, and transmits acquired data information to the CPU module (S2);
the CPU module (S2) receives the data information transmitted by the information acquisition module (S1), performs related calculation according to the received data information, simultaneously sends an operation instruction to each device, transmits a calculation analysis result to the touch screen (S3), and transmits the operation instruction to the execution module (S4);
the touch screen (S3) receives a calculation analysis result transmitted by the CPU module (S2), resets parameters of the five-constant-environment human body adaptive control unit according to the calculation result, and transmits setting completion information to the execution module (S4);
the execution module (S4) makes corresponding execution measures at corresponding time points according to the information and the instructions transmitted by the CPU module (S2) and the touch screen (S3);
the information acquisition module (S1) comprises an equipment data acquisition unit (S11), a module data acquisition unit (S12) and an execution mechanism fault data acquisition unit (S13);
the equipment data acquisition unit (S11) acquires relevant data of the closed frequency conversion compressor, the evaporator and the condenser in the working process and transmits acquired data information to the CPU module (S2);
the system comprises a module data acquisition unit (S12), a CPU (central processing unit) module (S2), a fan, a peculiar smell removal device and a negative oxygen ion generator, wherein the module data acquisition unit (S12) acquires data detected by sensors in a constant temperature module, a constant humidity module, a constant purification module, a constant oxygen module, a sterilization module, a power module and an environment monitoring sensor module, and transmits acquired data information to the CPU module (S2), the module data acquisition unit (S12) can monitor the air quality condition of a space, the change of a space temperature field, the dirty air of the space, the peculiar smell of the air and the gas leakage of the space, when the module data acquisition unit (S12) acquires the data of each module, the CPU module (S2) can rapidly and accurately calculate the active demand and the passive demand of a human body, when the dirty air of the space, the peculiar smell of the air and the gas leakage of the space are monitored, the fan, the peculiar smell removal device and the negative oxygen ion generator are started, when the change of the space temperature field is monitored, an instruction is timely sent to the execution module (S4) to be eliminated, and an owner alarm and an IOT platform is sent to send operation information;
the executing mechanism fault data acquisition unit (S13) acquires fault information of each executing mechanism of the five-constant-environment human body adaptive control unit after the fault occurs, and transmits the acquired fault information to the CPU module (S2);
the CPU module (S2) comprises a calculation analysis unit (S21), a dehumidification humidification unit (S22) and an operation instruction sending unit (S23);
the data information that computational analysis unit (S21) transmitted equipment data acquisition unit (S11), module data acquisition unit (S12) and actuating mechanism trouble data acquisition unit (S13) is received to whether need send the running instruction through calculation analysis, and transmit the analysis result to running instruction issue unit (S22), transmit the calculation result to touch-sensitive screen (S3), specific computational formula is:
the heat productivity of human body per hour is calculated by the following formula:
wherein n is the maximum number of the people in the room in each shift, and g is the total heat emitted by each person;
the formula for calculating the human body humidity is as follows:
wherein w represents the moisture capacity of each person and n represents the maximum number of shifts in the room;
the dehumidification and humidification unit (S22) receives data information transmitted by the module data acquisition unit (S12), compares data measured by a sensor in the constant humidity module with humidity data of human body requirements calculated by the calculation and analysis unit (S21), analyzes whether related instructions need to be sent to equipment for controlling the dehumidification and humidification unit (S22), and transmits analysis results to the operation instruction sending unit (S23);
the operation instruction sending unit (S23) receives the analysis results of the calculation analysis unit (S21) and the dehumidification and humidification unit (S22), sends an operation instruction according to the results, and sends the operation instruction to the execution module (S4);
the five-constant-environment human body adaptive regulator system control board acquires relevant data of the closed variable frequency compressor, the evaporator and the condenser, sends an operation instruction to the closed variable frequency compressor, the evaporator and the condenser according to the acquired data, acquires data detected by the sensors in the modules, and sends an operation instruction and maintenance feedback to the modules according to the acquired data;
the cloud IOT command center is communicated with the five-constant-environment human body adaptive regulator system control board, and sends out after-sales service instructions according to fault conditions of each actuating mechanism of the five-constant-environment human body adaptive regulator, and receives starting information of each device and operation instructions sent out by the five-constant-environment human body adaptive regulator system control board;
the remote cloud server is in mutual communication with the mobile phone APP, after-sales service instructions sent by the cloud IOT command center are received by the remote cloud server through the user and the mobile phone APP at the service center, after the user and the mobile phone APP at the service center receive the instructions, the remote cloud server sends service requests to the control panel of the five-constant-environment human body self-adaptive adjusting machine system, and the remote cloud server carries out remote repair on the five-constant-environment human body self-adaptive adjusting machine set in a standby state.
2. The intelligent control module of the five-constant-environment human body adaptive control unit according to claim 1, characterized in that: the touch screen (S3) is connected with the communication board, the touch screen (S3) resets parameters of the five-constant environment human body self-adaptive control unit according to the calculation result of the calculation and analysis unit (S21), the temperature, the humidity and the cleanliness of space air are automatically adjusted, and the touch screen (S3) can be used for setting local services and remote services.
3. The intelligent control module of the adaptive five-constant-environment human body regulator set according to claim 2, wherein: the execution module (S4) receives the operation instruction sent by the operation instruction sending unit (S23), controls the working states of a fan, a four-way valve, a compressor, a humidifier, an enthalpy-increasing valve, a crankshaft and an expansion valve of the dehumidification and humidification unit (S22) according to the received operation instruction, and sends the operation instruction to the constant temperature module, the constant humidity module, the constant purification module, the constant oxygen module, the sterilization module, the power module and the environment monitoring sensor module.
4. The intelligent control module of the five-constant-environment human body adaptive control unit according to claim 3, characterized in that: human self-adaptation regulator system control panel of five permanent environments includes power module, information acquisition module (S1), CPU module (S2), touch-sensitive screen (S3), execution module (S4), communication board, wiFi module and 485 communication interface, CPU module (S2) with power module is connected, CPU module (S2) with link to each other through 485 communication mode between the communication board, touch-sensitive screen (S3) are connected with the communication board, high in the clouds IOT command center with through wiFi module intercommunication between the communication board, long-range high in the clouds server and cell-phone APP intercommunication.
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