CN111811114A - Energy-saving air conditioner intelligent control system - Google Patents

Abstract

The invention provides an energy-saving intelligent control system of an air conditioner, which comprises: the intelligent temperature control terminal is used for controlling the working state of the air conditioner; the repeater is wirelessly connected with the intelligent temperature control terminal; the monitoring platform is in communication connection with the repeater; the monitoring platform can send out a control instruction signal, and the repeater strengthens the control instruction signal and then transmits the control instruction signal to the intelligent temperature control terminal; the intelligent temperature control terminal can collect the working state data of the air conditioner and feed the working state data back to the repeater, and the repeater transmits the working state data of the air conditioner to the monitoring platform. The invention has the advantages that: the intelligent temperature control terminals in all rooms are remotely controlled by the monitoring platform through the repeaters, so that the working state of the air conditioner in the room is controlled, and the electric power consumption of the air conditioner is effectively saved.

Description

Energy-saving air conditioner intelligent control system

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of air conditioners, in particular to an energy-saving intelligent control system of an air conditioner.

[ background of the invention ]

In the operation cost of high-end buildings such as hotels or office buildings, the power cost accounts for a large proportion of the operation cost, the large part of the power consumption is from an air conditioning system, and the energy-saving strategy of the air conditioning system determines the energy consumption to a great extent. In an existing air conditioner control system of a hotel or an office building, a temperature control terminal can only realize constant temperature control according to the temperature adjusted by a user, and can only be independently controlled in each room and can only be controlled in the room. When no person is in the room or the user is in the deep sleep state, the air conditioner continues to start according to a conventional control strategy, so that the waste of electric power is generated, if the air conditioner control system is more intelligent, whether a person is in the room or the user is in the deep sleep time period or not is judged, so that the running state of the air conditioner is controlled, unnecessary waste can be avoided, the energy-saving purpose is realized, and the operation cost saved for the hotel is reduced.

[ summary of the invention ]

The invention aims to provide an energy-saving intelligent control system of an air conditioner, which can remotely control the air conditioner in a room.

The invention is realized by the following steps: an energy-saving intelligent control system for an air conditioner, comprising:

the intelligent temperature control terminal is used for controlling the working state of the air conditioner;

the repeater is wirelessly connected with the intelligent temperature control terminal;

the monitoring platform is in communication connection with the repeater;

the monitoring platform can send out a control instruction signal, and the repeater strengthens the control instruction signal and then transmits the control instruction signal to the intelligent temperature control terminal; the intelligent temperature control terminal can collect the working state data of the air conditioner and feed the working state data back to the repeater, and the repeater transmits the working state data of the air conditioner to the monitoring platform.

Further, the intelligent temperature control terminal comprises an infrared sensor which is electrically connected with the intelligent temperature control terminal.

Further, the intelligent temperature control terminal comprises:

the first display is used for displaying the temperature information of a room and the working state of the air conditioner;

the timer is used for accurately acquiring time information;

a memory for storing the set parameters;

the thermistor is used for sensing the temperature in the room;

the first key panel is provided with a switch key and a control input key;

the first WIFI module is in wireless connection with the repeater;

the fan control module is used for controlling the state of a fan of the air conditioner;

the valve control module is used for controlling the state of a cold water pipe valve of the air conditioner;

the first MCU is electrically connected with the first display, the timer, the memory, the thermistor, the first control panel, the first WIFI module, the fan control module and the valve control module.

Further, still include the switch, the repeater with the control platform passes through switch communication connection.

Further, the switch is a POE switch.

Further, the repeater includes:

the second display is used for displaying the working state of the repeater;

the second WIFI module is in wireless connection with the intelligent temperature control terminal;

the second key panel is used for setting parameters of the repeater;

an RJ45 port communicatively connected to the switch;

and the second MCU is electrically connected with the second display, the second WIFI module, the second key panel and the RJ45 port.

The air conditioner further comprises a mobile phone, wherein the mobile phone is in communication connection with the monitoring platform and is used for remotely controlling the working state of the air conditioner.

Further, the monitoring platform is a server.

The invention has the advantages that: the intelligent temperature control terminals in all rooms are remotely controlled by the monitoring platform through the repeater, so that the working state of the air conditioner in the room is controlled, and the electric power consumption of the air conditioner is effectively saved; the infrared sensor is arranged in a room and is used for detecting whether a user exists in the room or not so as to adjust the operation of an air conditioner in the room; the user can remotely control the air conditioner in the room in real time through the mobile phone, and user experience is improved.

[ description of the drawings ]

The invention will be further described with reference to the following examples with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of an energy-saving intelligent control system of an air conditioner.

Fig. 2 is a schematic structural diagram of an intelligent temperature control terminal in the invention.

Fig. 3 is a schematic diagram of the structure of the repeater in the present invention.

The labels in the figure are: intelligent temperature control terminal 1, first display 11, timer 12, memory 13, thermistor 14, first key panel 15, first WIFI module 16, fan control module 17, valve control module 18, first MCU19, repeater 2, second display 21, second WIFI module 22, second key panel 23, RJ45 port 24, second MCU25, monitor platform 3, air conditioner 4, infrared ray sensor 5, switch 6, net twine 61, cell-phone 7.

[ detailed description ] embodiments

The embodiment of the invention provides an energy-saving intelligent control system of an air conditioner, solves the technical problem of independent control of the air conditioner in a room in the prior art, and achieves the technical effect of saving energy consumption by remotely controlling the air conditioner.

In order to solve the above problems, the technical solution in the embodiments of the present invention has the following general idea: the intelligent temperature control terminal in each room is remotely controlled by the repeater through the monitoring platform, so that the working state of the air conditioner in the room is controlled; the monitoring platform is operated by an administrator or sends a control instruction in a set time period so as to control the running state of the air conditioner, thereby avoiding unnecessary waste and realizing the purpose of energy conservation.

For better understanding of the above technical solutions, the following detailed descriptions will be provided in conjunction with the drawings and the detailed description of the embodiments.

Referring to fig. 1 to 3, a preferred embodiment of an energy-saving intelligent control system for an air conditioner according to the present invention. The invention comprises the following steps: the intelligent temperature control terminal 1 is used for controlling the working state of the air conditioner 4; the intelligent temperature control terminal 1 is located in a room. The repeater 2 is wirelessly connected with the intelligent temperature control terminal 1; the repeater 2 is located outside the room. The monitoring platform 3 is in communication connection with the repeater 2; the monitoring platform 3 is located in a main control room and is operated by an administrator. The monitoring platform 3 can send out a control instruction signal, and the repeater 2 reinforces the control instruction signal and then transmits the control instruction signal to the intelligent temperature control terminal 1; the administrator remotely controls the working states of the air conditioners 4 in all rooms through the monitoring platform 3, wherein the working states comprise the opening and closing of the air conditioners, the temperature and the wind speed of the air conditioners and the like. The intelligent temperature control terminal 1 can collect the working state data of the air conditioner and feed the working state data back to the repeater 2, and the repeater 2 transmits the working state data of the air conditioner to the monitoring platform 3; the working state data of the air conditioner comprises refrigeration temperature, blowing speed, air conditioner starting time and the like. The manager can see the air-conditioning state information of each room on the display screen of the monitoring platform 3. According to the factors such as personnel conditions, outdoor temperature, client room temperature, use time and the like in the actual rooms, the air conditioning equipment loading points of all the rooms are adjusted to the optimal energy consumption in real time, and therefore energy conservation is achieved. For example, in the morning of a period of deep sleep of a person, the lowest temperature of an air conditioner in a room is controlled to be the comfortable temperature of the person, and the original lowest temperature is automatically adjusted to be 22 ℃ from 16 ℃; this avoids unnecessary waste.

The intelligent temperature control terminal is characterized by further comprising an infrared sensor 5, wherein the infrared sensor 5 is electrically connected with the intelligent temperature control terminal 1. The infrared sensor 5 is provided in plural, and is installed at a main corner of a room to detect whether a person is present in the room. For example, when the user leaves the room temporarily, the air conditioner 4 is still in the on state, and at this time, after the intelligent temperature control terminal 1 receives the signal of the infrared sensor 5, the temperature of the air conditioner 4 is automatically adjusted or the air conditioner 4 is turned off, so that the air conditioner 4 is prevented from being in the low-temperature working mode in the unmanned room all the time.

The intelligent temperature control terminal 1 includes: a first display 11 for displaying temperature information of a room and an operating state of the air conditioner 4; the timer 12 is used for accurately acquiring time information; the air conditioner 4 is controlled at regular time. A memory 13 for storing the set parameters; the memory 13 is an EEPROM and is used for storing parameter information after power is off. A thermistor 14 for sensing the temperature in the room; the thermistor 14 is an NTC thermistor 14, i.e. a negative temperature coefficient thermistor. A first key panel 15 having a switch key and a control input key; a first WIFI module 16 wirelessly connected to the repeater 2; and the fan control module 17 is used for controlling the fan state of the air conditioner 4, such as fan speed and fan starting and stopping. A valve control module 18, configured to control a cold water pipe valve state of the air conditioner 4; thereby controlling the temperature in the room. And the first MCU19 is electrically connected with the first display 11, the timer 12, the memory 13, the thermistor 14, the first control panel, the first WIFI module 16, the fan control module 17 and the valve control module 18.

Still include the switch 6, repeater 2 with monitor platform 3 passes through switch 6 communication connection. The switch 6 may also be replaced by a router. The plurality of repeaters 2 are connected to the switch 6 via the network line 61. The switch 6 is a POE switch; the POE switch is the switch 6 supporting the network cable power supply, and not only can realize the data transmission function of the common switch, but also can supply power to the network terminal. I.e. the POE switch, provides power to the repeater 2.

The repeater 2 includes: a second display 21 for displaying the operating state of the repeater 2; the second WIFI module 22 is in wireless connection with the intelligent temperature control terminal 1; a second key panel 23 for setting parameters of the repeater 2; the RJ45 port 24 is in communication connection with the switch 6 by adopting a network cable 61 to realize data exchange; and the second MCU25 is electrically connected with the second display 21, the second WIFI module 22, the second key panel 23 and the RJ45 port 24.

The air conditioner is characterized by further comprising a mobile phone 7, wherein the mobile phone 7 is in communication connection with the monitoring platform 3, and the mobile phone 7 is used for remotely controlling the working state of the air conditioner 4. The monitoring platform 3 is a server or a computer. The monitoring platform 3 processes the APP instruction information on the user mobile phone 7; the user can control the intelligent temperature control terminal 1 of the guest room in advance at any place through the AAP on the mobile phone 7, for example, when the user is about to return, the air conditioner 4 of the room is opened in advance to cool, so that the user can directly feel the proper temperature of the room after arriving at the room, and the experience of the user is improved. If the intelligent temperature control terminal 1 is abnormal, the intelligent temperature control terminal can send functions such as alarm to the monitoring platform 3, and an administrator can conveniently and timely perform abnormal processing.

The intelligent temperature control terminal can be used as a common temperature controller and also has the following functions: (1) the data acquisition function is supported, and the acquired and transmitted data comprise the current indoor temperature, the set temperature, the air volume, the refrigeration/heating mode, the customer operation frequency (operations of temperature up/down regulation, air volume and the like) and the parameter position of the subsequent expansion function, such as the on-off display of a later-stage adding purification module and the like; (2) data transmission is carried out with the repeater in a wireless mode, and the wireless transmission fully considers the signal through the wall; (3) the intelligent temperature control terminal can decode and check the acquired data, mark a time tag and store the data in a local memory when a transmission network fails temporarily, and regularly monitor the network state by the data acquisition unit during the network interruption period; (4) the remote setting acquisition parameter function is supported, and comprises communication address information, a monitoring data type, a data acquisition period and an acquisition clock; (5) supporting a link management function, and monitoring the communication link state of the platform at regular time; (6) the function of supporting error diagnosis can be used for diagnosing various fault conditions in a targeted manner in the modes of link diagnosis, instruction diagnosis, data packet diagnosis and the like, and helping maintenance personnel to locate the fault position as soon as possible; (7) the function of remotely calibrating and acquiring a clock is supported; (8) supporting data abnormity alarm setting; (9) after the identity and the authority are confirmed, the remote firmware upgrading can be automatically carried out.

The monitoring platform in the invention comprises: (1) the basic information management function of the located building is supported, and the maintenance of the basic information of a building group and the building is provided, wherein the basic information comprises names, codes, building types, using areas, construction times, longitude and latitude, heating forms, instrument installation information and the like; (2) the intelligent temperature control system can automatically adjust the indoor temperature in the late night and other deep sleep periods, and sets the air conditioner at a comfortable temperature. Before a client enters a room, an air conditioning system is started in advance; (3) analyzing energy consumption, feeding back cooling efficiency and operation feedback of a terminal client (for example, frequently adjusting temperature within a short time indicates that the temperature is not full, and if background control exists, the control is removed), displaying energy consumption data in a visual form such as a chart and uploading the energy consumption data to a cloud end; (4) the system supports the functions of time-of-use pricing rate maintenance and electric charge calculation, supports multi-period and multi-rate setting, supports stage rates and seasonal rates, and is flexibly customized; (5) the data and picture export and printing functions are supported, and data curve charts can be exported to local files or directly printed and output; (6) the system supports authorized access and remote access functions, and grants different authorities according to different users in order to ensure the safety of the system and prevent illegal users from entering the system; (7) the query and display functions of the original data are supported, and the original data and historical data in the database can be queried and displayed at any time; (8) the log system function is supported, log recording is carried out on important operations in the system, and communication logs can be divided into normal communication logs, abnormal parameter logs, instruction logs and the like; the log classification is carried out on the operations of basic information management, remote parameter management, authority management, daily login and the like; (9) the functions of data auditing and abnormal data processing are supported, and the system software can audit the validity and correctness of the data after receiving the data; an independent auditing system and auditing parameters can be set for each monitoring point; fuzzy auditing and specific parameter auditing can be carried out; processing and recording data which fails to be audited in a classification way; (10) the energy consumption data calculation function is supported, and according to the energy consumption classification itemized topological structure, the background energy consumption data analysis processing process is used for carrying out calculation such as splitting, classification itemizing and summarizing on the acquired data by combining information such as field equipment parameters, installation positions, circuit structures and energy consumption equipment which are input into the system. Including refrigeration capacity parameters, cooling efficiency (how much temperature is reduced per minute or how much time is required for reducing 1 ℃ per minute under the condition of a plurality of fans), equipment energy consumption, back calculation of equipment refrigeration capacity loss and the like.

Although specific embodiments of the invention have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the invention, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the invention, which is to be limited only by the appended claims.

Claims (8)

1. An energy-conserving air conditioner intelligence control system which characterized in that includes:

the intelligent temperature control terminal is used for controlling the working state of the air conditioner;

the repeater is wirelessly connected with the intelligent temperature control terminal;

the monitoring platform is in communication connection with the repeater;

the monitoring platform can send out a control instruction signal, and the repeater strengthens the control instruction signal and then transmits the control instruction signal to the intelligent temperature control terminal; the intelligent temperature control terminal can collect the working state data of the air conditioner and feed the working state data back to the repeater, and the repeater transmits the working state data of the air conditioner to the monitoring platform.

2. The intelligent control system of an energy-saving air conditioner as claimed in claim 1, further comprising an infrared sensor, wherein the infrared sensor is electrically connected with the intelligent temperature control terminal.

3. The intelligent energy-saving air conditioner control system as claimed in claim 1, wherein the intelligent temperature control terminal comprises:

the first display is used for displaying the temperature information of a room and the working state of the air conditioner;

the timer is used for accurately acquiring time information;

a memory for storing the set parameters;

the thermistor is used for sensing the temperature in the room;

the first key panel is provided with a switch key and a control input key;

the first WIFI module is in wireless connection with the repeater;

the fan control module is used for controlling the state of a fan of the air conditioner;

the valve control module is used for controlling the state of a cold water pipe valve of the air conditioner;

the first MCU is electrically connected with the first display, the timer, the memory, the thermistor, the first control panel, the first WIFI module, the fan control module and the valve control module.

4. The intelligent energy-saving control system for air conditioners as claimed in claim 1, further comprising an exchanger, wherein the repeater is in communication connection with the monitoring platform through the exchanger.

5. The intelligent control system of energy-saving air conditioner as claimed in claim 4, wherein the switch is a POE switch.

6. The intelligent control system of an energy-saving air conditioner as claimed in claim 4, wherein the repeater comprises:

the second display is used for displaying the working state of the repeater;

the second WIFI module is in wireless connection with the intelligent temperature control terminal;

the second key panel is used for setting parameters of the repeater;

an RJ45 port communicatively connected to the switch;

and the second MCU is electrically connected with the second display, the second WIFI module, the second key panel and the RJ45 port.

7. The energy-saving intelligent control system for the air conditioner as claimed in claim 1, further comprising a mobile phone, wherein the mobile phone is in communication connection with the monitoring platform, and the mobile phone is used for remotely controlling the working state of the air conditioner.

8. An energy-saving intelligent control system for air conditioners as claimed in claim 1, wherein the monitoring platform is a server.

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