CN113110654A - Building energy-saving comfortable automatic control system and method thereof - Google Patents

Abstract

The application discloses building energy-saving comfortable automatic control system and method, the building energy-saving comfortable automatic control system comprises a master control end, a user end and a display end, the user end is in signal connection with the master control end, the display end is in signal connection with the master control end, the master control end comprises a central processing module, a data acquisition module and a data storage module, the user end comprises a login module and a control module, the display end comprises a first data display module and a second data display module, and the using method of the system comprises automatic control of the system and manual remote control of the system. According to the scheme, automatic control of the building can be completed only by adding peripheral equipment such as sensors and actuators to match an automatic control system, the central processing module accurately controls the atomization amount and the atomization time of the spraying system through data collected by the data collection module, so that the air conditioner outdoor unit operates in a high-efficiency and energy-saving mode, and the work of manually cleaning a heat exchanger for the air conditioner outdoor unit is omitted.

Description

Building energy-saving comfortable automatic control system and method thereof

Technical Field

The application relates to the technical field of building environment monitoring and control, in particular to a building energy-saving and comfortable automatic control system and a method thereof.

Background

The production office building and the production building are put into production, equipment such as building lights, air conditioners and electromechanical devices of the production office building and the production building are from different manufacturers and cannot provide a unified data interface and a control interface, coordination operation and intelligent regulation and control cannot be carried out, intelligent equipment is redeployed, a large amount of funds are invested, large-scale adjustment of indoor tooling parts is involved, normal office production is affected, meanwhile, the air conditioners and the lights are frequently forgotten to be closed in office scenes, and resources are consumed in rooms for a long time.

The problem of overload of the refrigeration pressure of the air conditioner is as follows: lead to this problem mainly by summer when hot, the outer machine of air conditioner can't reach the target heat transfer through the air-cooled heat exchange, lead to inside refrigerant pressure too big, the automatic protection mode that opens of air conditioner is in order to avoid appearing mechanical fault, but the air conditioner also can't refrigerate when overvoltage protection, under the condition of no external intervention, air conditioner overload protection time is from 20 minutes to several hours inequality, indoor subjective impression is this during this period: the air conditioner blows hot-blast at the refrigeration state, reduces office environment comfort level, and conventional solution is to send the manual work to go the witnessed inspections, reaches rapid cooling dust removal effect through wasing the heat exchanger, makes the air conditioner resume work, and nevertheless outdoor air conditioning unit summer operational environment is very abominable, and complicated pipeline is laid and 380V forceful electric power in addition to the high temperature, causes bodily injury in the inspection process easily.

Disclosure of Invention

The main objective of the present application is to provide an energy-saving and comfortable automatic control system for building and a method thereof, so as to solve the problems in the related art.

In order to achieve the purpose, the building energy-saving comfortable automatic control system comprises a master control end, a user end and a display end, wherein the user end is in signal connection with the master control end, and the display end is in signal connection with the master control end;

the master control end is used for acquiring and analyzing temperature and humidity data outside the building and operating condition data of an air conditioner external unit and automatically controlling the system;

the user side is used for logging in by system management personnel and carrying out manual remote control on the system;

and the display end is used for displaying the data acquired by the master control end and analyzing the data.

In an embodiment of the application, the master control end includes a central processing module, a data acquisition module and a data storage module;

the data acquisition module is in signal connection with the central processing module, and the data storage module is in signal connection with the central processing module;

the central processing module is used for processing, calculating and transmitting data;

the data acquisition module is used for acquiring the temperature and humidity data of the indoor and outdoor units of the building and the operating condition data of the indoor and outdoor units of the air conditioner;

the data storage module is used for storing the acquired data.

In one embodiment of the present application, the data acquisition module comprises a first acquisition module and a second acquisition module;

the first acquisition module is used for acquiring temperature and humidity data of each indoor and outdoor area of the building;

the second acquisition module is used for acquiring the data of the running conditions of the air conditioner external and internal machines.

In an embodiment of the present application, the user side includes a login module and a control module;

the login module is in signal connection with the central processing module, and the control module is in signal connection with the central processing module;

the login module is used for a system manager to log in a user side interface;

the control module is used for a system manager to manually and remotely control the system.

In an embodiment of the present application, the display end includes a first data display module and a second data display module;

the first data display module is in signal connection with the central processing module, and the second data display module is in signal connection with the central processing module;

the first data display module is used for displaying real-time indoor and outdoor temperature and humidity data of the building;

and the second data display module is used for displaying the data of the running conditions of the internal and external machines of the real-time air conditioner.

In one embodiment of the present application, the first data display module includes a temperature display module and a humidity display module;

the temperature display module is used for displaying real-time indoor and outdoor temperature data of the building;

the humidity display module is used for displaying real-time indoor and outdoor humidity data of the building.

The application also provides a using method of the building energy-saving comfortable automatic control system, which comprises the following steps:

automatic control of the system and manual remote control of the system;

the automatic control of the system comprises the following steps:

s1, the data acquisition module of the master control end detects and acquires temperature and humidity data of the indoor and outdoor building and condition data of an air conditioner outdoor unit once per minute through an acquisition unit and is stored by the data storage module of the master control end;

s2, the central processing module of the master control end sends an instruction to the actuator to spray the air conditioner external unit to cool and remove dust;

s201, automatically judging whether an air conditioner external unit meets a shutdown condition or not by a central processing module of a master control end according to data collected by a data collecting module, controlling the air conditioner external unit to automatically shut down and stop spraying if the air conditioner external unit meets the shutdown condition, and continuing spraying if the air conditioner external unit does not meet the shutdown condition;

s202, automatically detecting whether the spraying system has an unexecuted action by a central processing module of the master control end, judging whether a condition for finishing spraying is met, continuously spraying the air conditioner external unit if the unexecuted action is met, finishing spraying if the condition for finishing spraying is met, returning spraying history data to the master control end, and storing the data by a data storage module;

s203, detecting whether rain and snow exist outside the building through a data acquisition module of the master control end through a sensor, and if so, not spraying an air conditioner outdoor unit;

s3, the central processing module of the master control end automatically detects whether the sensor and the actuator are on line or not, if not, the sensor and the actuator can not normally communicate, abnormal information is transmitted back to the central processing module, if so, the sensor and the actuator normally operate, and the sensor returns the air inlet and outlet temperature of the air conditioner external unit to the data acquisition module;

s4, the central processing module of the master control end automatically judges whether the data fed back by the sensor is normal, if not, the data is abnormal and lost, if normal, the outdoor temperature of the building is automatically judged whether to meet the condition of spraying the air conditioner outdoor unit, if not, the spraying is not carried out, if yes, the outdoor temperature of the building is judged whether to meet the condition of forced shutdown protection of the air conditioner outdoor unit, if yes, the circuit breaker is controlled to automatically disconnect the air conditioner outdoor unit to shut down, if not, the temperature and humidity of the air conditioner outdoor unit after air inlet and exhaust are further judged whether to meet the spraying condition, if not, the spraying is not carried out, if yes, the spraying is carried out on the air conditioner outdoor unit, and the.

The manual remote control of the system comprises the following steps:

s1, registering: a system manager logs in the system by using a login module of a user side;

s2, observation: a system manager observes the first data display module of the display end to know real-time outdoor temperature and humidity data of the building, and observes the second data display module of the display end to know real-time running state data of the air conditioner outdoor unit;

s3, manual control: a system manager uses a control module of a user side to access manual control over the system, and does not spray an air conditioner outdoor unit in real time in rainy and snowy weather;

s301, when the outdoor temperature displayed by the first data display module of the display end meets the shutdown condition of the air conditioner external unit, the control module of the user end is used for manually controlling the system to close the air conditioner external unit and the spraying system;

s302, when the outdoor temperature displayed by the temperature display module of the first data display module meets the spraying condition, whether the outdoor temperature displayed by the temperature display module of the first data display module meets the condition of shutdown protection of the air conditioner outdoor unit is observed again, the condition that whether the outdoor temperature displayed by the temperature display module of the first data display module meets the condition of shutdown protection of the air conditioner outdoor unit is met, the condition that whether the air inlet and exhaust temperature and humidity of the air conditioner outdoor unit displayed by the second data display module meet the spraying condition is met, the condition that the air conditioner outdoor unit is sprayed by the control module of the user side to control the actuator is met, the spraying record is stored in the data storage module of the master control end, and the spraying record is not.

Compared with the prior art, the beneficial effects of this application are:

1. by the aid of the building energy-saving comfortable automatic control system, when the building energy-saving comfortable automatic control system is used, large-scale decoration transformation and equipment replacement of a building which is put into operation are not needed, peripheral equipment such as a sensor and an actuator are only needed to be added, a hardware protocol is established between the central processing module of the master control end and the peripheral equipment such as the sensor and the actuator, the system can control the peripheral equipment such as the sensor and the actuator, and automatic control of the building can be achieved, so that building decoration transformation and equipment replacement costs are saved;

2. through the building energy-saving comfortable automatic control system, when in use, the data acquisition module of the master control end can acquire and detect temperature and humidity data inside and outside a building room and status data of the air conditioner outdoor unit once every minute, so that whether the indoor temperature and humidity meet the requirement of human comfort level and whether the outdoor temperature and humidity and the status of the air conditioner outdoor unit meet the spraying condition can be mastered in real time, when the spraying condition is met, the central processing module of the master control end can automatically send an instruction to the actuator to spray the air conditioner outdoor unit, thereby reducing the situation that the air conditioner cannot refrigerate due to the fact that the air conditioner cannot be automatically started in a protection mode because the air conditioner outdoor unit cannot reach the target heat exchange amount through air-cooling heat exchange when the summer is hot, being beneficial to ensuring that the indoor temperature and humidity meet the requirement of human comfort level, and simultaneously saving the work of sending manpower to the site to clean, the injury to the human body possibly caused in the work is avoided;

3. through the building energy-saving comfortable automatic control system, when in use, the central processing module of the master control end can calculate temperature and humidity values meeting the requirement of human comfort according to the change of seasons, personnel and air flow conditions, and then sends out instructions to the air conditioner internal unit to control the indoor temperature and humidity to be the required values, meanwhile, the central processing module of the master control end can calculate the expected working time of the air conditioner according to data returned by the sensor, determine the running power, automatically reduce power consumption and maintain the temperature after reaching the standard, thereby achieving the purpose of controlling the energy-saving running of equipment, accurately controlling the atomization amount and the atomization time of the spraying system through all data collected by the data collection module, combining with a software algorithm, the air outlet temperature and humidity of a fan of an air conditioner external unit and the outdoor temperature and humidity, and enabling the air conditioner external unit to be in a high-efficiency and energy-saving state, and the system operation cost is favorably reduced.

Drawings

FIG. 1 is a schematic block diagram of a building energy-saving comfort automatic control system provided according to an embodiment of the application;

fig. 2 is a schematic block diagram of a system of a master control end of a building energy-saving comfortable automatic control system provided by an embodiment of the application;

fig. 3 is a schematic block diagram of a system at a user side of a building energy-saving comfort automatic control system according to an embodiment of the application;

fig. 4 is a system schematic block diagram of a display end of a building energy-saving comfort automatic control system provided by an embodiment of the application.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all 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 application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.

In addition, the term "plurality" shall mean two as well as more than two.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1

Referring to fig. 1-4, the present application provides a building energy-saving comfortable automatic control system, which includes a master control end, a user end and a display end, wherein the user end is in signal connection with the master control end, and the display end is in signal connection with the master control end;

the master control end is used for collecting and analyzing temperature and humidity data inside and outside the building room and the operation condition data of the air conditioner external unit and carrying out automatic control of the system, at the same time, the system supports automatic protocol determination, which will automatically determine and interface standard protocols such as modbus Tcp/RTU, Tcp, HTTP, the system provides a monitoring protocol of HTTP and UDP to open the hardware equipment, the hardware equipment can actively report data to the master control end, the master control end automatically analyzes the data according to the equipment type and displays the data on the display end, in addition, the system is provided with an air conditioner external unit self-adaptive judgment algorithm, comprehensively collects data fed back by the air conditioner external unit and a small-sized meteorological station on the roof in real time, after the energy consumption, the temperature and humidity of inlet and outlet air and the small air information of the air conditioner external unit are comprehensively processed, the master control end judges whether the air conditioner external unit needs to be sprayed to cool and remove dust, so that the high-temperature protection of the air conditioner external unit is avoided to the maximum extent;

the user side is used for logging in by system management personnel and carrying out manual remote control on the system;

the display end is used for displaying the data collected by the master control end and analyzing the data.

The master control end comprises a central processing module, a data acquisition module and a data storage module, wherein the data acquisition module is in signal connection with the central processing module, and the data storage module is in signal connection with the central processing module;

the central processing module is used for processing, calculating and transmitting data, and establishing a hardware protocol with peripheral equipment such as an air conditioner internal and external machine, a sensor, an actuator and the like, so that the system can control the peripheral equipment such as the air conditioner internal and external machine, the sensor, the actuator and the like;

the data acquisition module is used for acquiring the temperature and humidity data of the indoor and outdoor units of the building and the operating condition data of the indoor and outdoor units of the air conditioner;

the data acquisition module comprises a first acquisition module and a second acquisition module;

the first acquisition module is used for acquiring temperature and humidity data of each indoor and outdoor area of the building;

the second acquisition module is used for acquiring the data of the running state of the air conditioner external unit;

the data storage module is used for storing all the data acquired by the data acquisition module.

The user side comprises a login module and a control module;

the login module is in signal connection with the central processing module, and the control module is in signal connection with the central processing module;

the login module is used for a system manager to log in a user side interface;

the control module is used for the system management personnel to carry out manual remote control of the system.

The display end comprises a first data display module and a second data display module;

the first data display module is in signal connection with the central processing module, and the second data display module is in signal connection with the central processing module;

the first data display module is used for displaying real-time indoor and outdoor temperature and humidity data of the building;

the first data display module comprises a temperature display module and a humidity display module;

the temperature display module is used for displaying real-time indoor and outdoor temperature data of the building;

the humidity display module is used for displaying real-time indoor and outdoor humidity data of the building;

the second data display module is used for displaying the data of the real-time running state of the air conditioner external unit.

The application also provides a using method of the building energy-saving comfortable automatic control system, which comprises the following steps:

automatic control of the system and manual remote control of the system;

the use method of the building energy-saving comfortable automatic control system comprises the following steps:

s1, the data statistics module of the master control end detects and collects indoor and outdoor temperature and humidity data of each area of the building and status data of all air conditioner outdoor units once every minute through a collector, and all the data are stored by the data storage module of the master control end;

s2, the central processing module of the master control end automatically sends an instruction to the actuator to spray the air conditioner external unit to cool and remove dust, and automatically controls the atomization amount and the atomization time of the spray according to the data collected by the data collection module and the air conditioner external unit self-adaptive judgment algorithm set by the system, so that accurate temperature control is realized, the air conditioner external unit is always in a high-efficiency state, and the system operation cost is favorably reduced;

s201, automatically judging whether the air conditioner external unit meets a shutdown condition or not by the central processing module of the master control end according to data collected by the data collecting module, if the outdoor temperature is lower than 6 ℃, controlling the air conditioner external unit to automatically shut down and stop spraying, and if the outdoor temperature is not higher than 6 ℃, continuing spraying;

s202, automatically detecting whether the spraying system has an unexecuted action by a central processing module of the master control end, judging whether a condition for finishing spraying is met, continuously spraying the air conditioner external unit if the unexecuted action is met, finishing spraying if the condition for finishing spraying is met, returning spraying history data to the master control end, and storing the data by a data storage module;

s203, detecting whether rain and snow exist outside the building through a data acquisition module of the master control end through a sensor, and if so, not spraying an air conditioner outdoor unit;

s3, the central processing module of the master control end automatically detects whether the sensor and the actuator are on line or not, if not, the sensor and the actuator can not normally communicate, abnormal information is transmitted back to the central processing module, if so, the sensor and the actuator normally operate, and the sensor returns the air inlet and outlet temperature of the air conditioner external unit to the data acquisition module;

s4, the central processing module of the master control end automatically judges whether the data fed back by the sensor is normal, if not, the data is abnormal and lost, if normal, the outdoor temperature of the building is automatically judged whether to meet the condition of spraying the air conditioner outdoor unit, if not, the spraying is not carried out, if yes, the outdoor temperature of the building is judged whether to meet the condition of forced shutdown protection of the air conditioner outdoor unit, if yes, the circuit breaker is controlled to automatically disconnect the air conditioner outdoor unit to shut down, if not, the temperature and humidity of the air conditioner outdoor unit after air inlet and exhaust are further judged whether to meet the spraying condition, if not, the spraying is not carried out, if yes, the spraying is carried out on the air conditioner outdoor unit, and the.

The use method of the building energy-saving comfortable automatic control system comprises the following steps of:

s1, registering: a system manager logs in the system by using a login module of a user side;

s2, observation: a system manager observes the first data display module of the display end to know real-time data of indoor and outdoor temperature and humidity of the building, and observes the second data display module of the display end to know real-time data of the running condition of the air conditioner outdoor unit;

s3, manual control: a system manager uses an operation module of a user side to access manual control on the system, spraying is not carried out in real time in rainy and snowy weather, when a display end cannot normally display related data and the operation module of the user side cannot normally operate peripheral equipment such as an air conditioner internal and external machine, a sensor actuator and the like, whether the related data are abnormal or not needs to be manually checked, and timely maintenance is carried out if the related data are abnormal;

s301, when the outdoor temperature displayed by the first data display module of the display end meets the shutdown condition of the air conditioner outdoor unit, if the outdoor temperature is lower than 6 ℃, a system manager uses the control module of the user end to manually control the system to close the air conditioner outdoor unit and the spraying system;

s302, when the outdoor temperature displayed by the temperature display module of the first data display module reaches the spraying condition, whether the outdoor temperature displayed by the temperature display module of the first data display module meets the condition of shutdown protection of the air conditioner outdoor unit is observed again, the condition that whether the outdoor temperature displayed by the temperature display module of the first data display module meets the condition that the air conditioner outdoor unit is shut down by controlling the circuit breaker to be disconnected by using the control module of the user side is met, the condition that whether the air conditioner outdoor unit air inlet and exhaust temperature and humidity displayed by the second data display module meet the spraying condition is not observed again, the condition that whether the air conditioner outdoor unit air inlet and exhaust temperature and humidity meet the condition that the air conditioner outdoor unit is sprayed by using.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (9)

1. The building energy-saving comfortable automatic control system comprises a master control end, a user end and a display end, and is characterized in that the user end is in signal connection with the master control end, and the display end is in signal connection with the master control end;

the master control end is used for acquiring and analyzing temperature and humidity data outside the building and operating condition data of an air conditioner external unit and automatically controlling the system;

the user side is used for logging in by system management personnel and carrying out manual remote control on the system;

and the display end is used for displaying the data acquired by the master control end and analyzing the data.

2. The building energy-saving comfortable automatic control system as claimed in claim 1, wherein said general control end comprises a central processing module, a data acquisition module and a data storage module;

the data acquisition module is in signal connection with the central processing module, and the data storage module is in signal connection with the central processing module;

the central processing module is used for processing, calculating and transmitting data;

the data acquisition module is used for acquiring the temperature and humidity data of the indoor and outdoor units of the building and the operating condition data of the indoor and outdoor units of the air conditioner;

the data storage module is used for storing the acquired data.

3. The building energy-saving comfort automatic control system as claimed in claim 2, wherein said data acquisition module comprises a first acquisition module and a second acquisition module;

the first acquisition module is used for acquiring temperature and humidity data of each indoor and outdoor area of the building;

the second acquisition module is used for acquiring the data of the running conditions of the internal machine and the external machine of the air conditioner.

4. The building energy-saving comfortable automatic control system according to claim 1, wherein the user side comprises a login module and a control module;

the login module is in signal connection with the central processing module, and the control module is in signal connection with the central processing module;

the login module is used for a system manager to log in a user side interface;

the control module is used for a system manager to manually and remotely control the system.

5. A building energy-saving comfort automatic control system as claimed in claim 2, wherein said display terminal comprises a first data display module and a second data display module;

the first data display module is in signal connection with the central processing module, and the second data display module is in signal connection with the central processing module;

the first data display module is used for displaying real-time indoor and outdoor temperature and humidity data of the building;

and the second data display module is used for displaying the data of the running conditions of the internal and external machines of the real-time air conditioner.

6. The building energy-saving comfort automatic control system as claimed in claim 5, wherein said first data display module comprises a temperature display module and a humidity display module;

the temperature display module is used for displaying real-time indoor and outdoor temperature data of the building;

the humidity display module is used for displaying real-time indoor and outdoor humidity data of the building.

7. The use method of the building energy-saving comfortable automatic control system is characterized by comprising the following steps:

automatic control of the system and manual remote control of the system.

8. The method of claim 7 wherein the automatic control of the system comprises the steps of:

s1, the data acquisition module of the master control end detects and acquires the temperature and humidity data of the indoor and outdoor building and the condition data of the air conditioner outdoor unit once every minute through the acquisition unit and is stored by the data storage module of the master control end;

s2, the central processing module of the master control end sends an instruction to the actuator to spray the air conditioner external unit to cool and remove dust;

s201, automatically judging whether an air conditioner external unit meets a shutdown condition or not by a central processing module of a master control end according to data collected by a data collecting module, controlling the air conditioner external unit to automatically shut down and stop spraying if the air conditioner external unit meets the shutdown condition, and continuing spraying if the air conditioner external unit does not meet the shutdown condition;

s202, automatically detecting whether the spraying system has an unexecuted action by a central processing module of the master control end, judging whether a condition for finishing spraying is met, continuously spraying the air conditioner external unit if the unexecuted action is met, finishing spraying if the condition for finishing spraying is met, returning spraying history data to the master control end, and storing the data by a data storage module;

s203, detecting whether rain and snow exist outside the building through a data acquisition module of the master control end through a sensor, and if so, not spraying an air conditioner outdoor unit;

s3, the central processing module of the master control end automatically detects whether the sensor and the actuator are on line or not, if not, the sensor and the actuator can not normally communicate, abnormal information is transmitted back to the central processing module, if so, the sensor and the actuator normally operate, and the sensor returns the air inlet and outlet temperature of the air conditioner external unit to the data acquisition module;

s4, the central processing module of the master control end automatically judges whether the data fed back by the sensor is normal, if not, the data is abnormal and lost, if normal, the outdoor temperature of the building is automatically judged whether to meet the condition of spraying the air conditioner outdoor unit, if not, the spraying is not carried out, if yes, the outdoor temperature of the building is judged whether to meet the condition of forced shutdown protection of the air conditioner outdoor unit, if yes, the circuit breaker is controlled to automatically disconnect the air conditioner outdoor unit to shut down, if not, the temperature and humidity of the air conditioner outdoor unit after air inlet and exhaust are further judged whether to meet the spraying condition, if not, the spraying is not carried out, if yes, the spraying is carried out on the air conditioner outdoor unit, and the.

9. The method of claim 7 wherein the manual remote control of the system comprises the steps of:

s1, registering: a system manager logs in the system by using a login module of a user side;

s2, observation: a system manager observes the first data display module of the display end to know real-time outdoor temperature and humidity data of the building, and observes the second data display module of the display end to know real-time running state data of the air conditioner outdoor unit;

s3, manual control: a system manager uses a control module of a user side to access manual control over the system, and does not spray an air conditioner outdoor unit in real time in rainy and snowy weather;

s301, when the outdoor temperature displayed by the first data display module of the display end meets the shutdown condition of the air conditioner external unit, the control module of the user end is used for manually controlling the system to close the air conditioner external unit and the spraying system;

s302, when the outdoor temperature displayed by the temperature display module of the first data display module meets the spraying condition, whether the outdoor temperature displayed by the temperature display module of the first data display module meets the condition of shutdown protection of the air conditioner outdoor unit is observed again, the condition that whether the outdoor temperature displayed by the temperature display module of the first data display module meets the condition of shutdown protection of the air conditioner outdoor unit is met, the condition that whether the air inlet and exhaust temperature and humidity of the air conditioner outdoor unit displayed by the second data display module meet the spraying condition is met, the condition that the air conditioner outdoor unit is sprayed by the control module of the user side to control the actuator is met, the spraying record is stored in the data storage module of the master control end, and the spraying record is not.

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