WO2014106443A1

WO2014106443A1 - Air-conditioning control system

Info

Publication number: WO2014106443A1
Application number: PCT/CN2013/090774
Authority: WO
Inventors: 李进; 钟明; 刘运中; 赵寰; 操四胜
Original assignee: 四川长虹电器股份有限公司
Priority date: 2013-01-07
Filing date: 2013-12-27
Publication date: 2014-07-10
Also published as: CN102997381A; CN102997381B

Abstract

Disclosed is an air-conditioning control system, comprising M outdoor units, N indoor units and a controller. Each of the M outdoor units is provided with an outdoor unit control module for controlling a compressor and a blower in each outdoor unit and detecting and acquiring first operation parameter information in the outdoor unit. Each of the N indoor units is provided with a first indoor unit control module for detecting and acquiring second operation parameter information in the indoor unit and first operation parameter information in a corresponding environment of each indoor unit. The controller is used for processing M received first operation parameter information in the M outdoor units and N second operation parameter information and N first operation parameter information in the N indoor units, acquiring an instruction and transmitting the instruction to M outdoor units and/or N indoor units.

Description

Air conditioning control system

The present application claims priority to Chinese Patent Application No. 20131000491, the entire disclosure of which is incorporated herein by reference. Technical field

The invention relates to the technical field of air conditioners, and in particular to an air conditioning control system. Background technique

With the continuous development of science and technology, electronic technology has also developed rapidly, and there are more and more types of electronic products. People also enjoy the convenience brought by the development of science and technology. Nowadays, people can enjoy the comfortable life brought by the development of science and technology through various types of electronic devices. For example, air-conditioning equipment has become an indispensable part of people's lives. In hot weather or cold weather, the indoor temperature can be adjusted at any time by the cooling and heating system in the air-conditioning equipment. Comfortable temperature.

However, the inventors of the present application found in the process of implementing the present invention that the following technical problems or defects exist in the prior art:

The air conditioner in the prior art can realize heating or cooling of a plurality of indoor units through a plurality of outdoor units assembled together, but in a plurality of sets of air conditioners, it is also not passed through a centralized control platform. Multiple groups of air conditioners are connected and controlled. Therefore, there are technical problems that cannot achieve effective centralized control and distribute the cold source or heat source of each group of air conditioners as needed.

Moreover, each split air conditioner in the prior art cannot be operated in a network, and an outdoor unit can only supply cooling or heating to a fixed corresponding indoor unit. The cold source or the heat source cannot be allocated according to the overall needs, which is easy to cause waste of resources.

And, because the split air conditioner in the prior art cannot be operated in a network, if a split air conditioner is used If the indoor unit fails, the outdoor unit corresponding to it is in a normal state, but because the indoor unit corresponding to it is faulty, it cannot be used, which is not conducive to resource utilization. Summary of the invention

The present invention provides an air conditioning control system for solving the problem of networking and controlling multiple sets of air conditioners in a plurality of sets of air conditioners without passing through a centralized control platform in the prior art. Therefore, there is also an inability to achieve effective concentration. Control, the technical problem of distributing the cold source or heat source of each group of air conditioners as needed. The specific technical solutions are as follows:

An air conditioning control system is applied to an air conditioning system including M outdoor units and N indoor units, wherein the M and N are positive integers greater than or equal to 1, and the system comprises:

Each of the M outdoor units is provided with an outdoor unit control module, and the outdoor unit control module is configured to control the compressor and the fan in each of the outdoor units, and detect Obtaining first operating parameter information in the outdoor unit;

a first indoor unit control module is disposed in each of the N indoor units, and the first indoor unit control module is configured to detect and acquire the second unit of each indoor unit. Running parameter information and first operating parameter information in the corresponding environment of each indoor unit;

a controller, configured to process M first operating parameter information of the M outdoor units, N second operating parameter information of the N indoor units, and N first operating parameter information, to obtain Executing an instruction and transmitting the execution instruction to the M outdoor units and/or the N indoor units.

Optionally, the outdoor unit control module includes:

An outdoor unit control unit for controlling a compressor, a fan, a four-way valve, an oil receiving valve, and a fuel supply valve disposed in the outdoor unit;

a detecting unit, configured to detect an air inlet temperature and an air outlet temperature disposed in the outdoor unit; an outdoor unit communication module, connected to the outdoor unit control unit and the detecting unit, for detecting the detecting unit The inlet air temperature and the outlet air temperature are sent to the controller and/or the indoor unit, and receive a control instruction of the indoor unit and the execution instruction sent by the controller, The outdoor unit control unit transmits the control command from the indoor unit and the execution command of the controller.

Optionally, the outdoor unit control unit includes:

a press fan control unit, configured to control operation of the compressor and the fan; and a valve control unit configured to control opening and closing of the four-way valve, the oil receiving valve, and the oil supply valve. Optionally, the outdoor unit communication module includes:

a first communication interface, disposed in the outdoor unit, connected to the indoor unit and the controller through the first communication interface, and configured to receive the control instruction of the indoor unit and send by the controller Said execution instruction;

a second communication interface is disposed in the outdoor unit, configured to connect to the first electronic device and the controller, and send the first operating parameter information of the outdoor unit to the first electronic device? And receiving a selection instruction returned by the first electronic device, wherein the selection instruction is capable of controlling the valve control unit and the press fan control unit in the outdoor unit.

Optionally, the outdoor unit further includes:

Refrigerant transfer tube;

The outdoor unit expansion valve is disposed at a starting end of the refrigerant transmission pipe, and controls the number of opening and closing of the refrigerant transmission pipe in the outdoor unit according to the execution instruction sent by the controller.

Optionally, the first indoor unit control module includes:

a fan damper control unit is disposed in the indoor unit, and configured to control a damper disposed in the indoor unit and generate a fan control signal for controlling the fan in the outdoor unit;

The indoor unit communication module is configured to be connected to the outdoor unit through the indoor unit communication module, and send the fan control signal to the outdoor unit through the indoor unit communication module, and pass the indoor unit The communication module transmits the second operating parameter information to a second electronic device connected to the indoor unit.

Optionally, the indoor unit communication module includes:

Displaying a communication interface, configured to connect the second electronic device, and send the second operating parameter of the indoor unit to the second electronic device, and display an output device on the second electronic device Receiving, by the second operating parameter or the first operating parameter, an adjustment instruction returned by the second electronic device, where the adjustment instruction is used to adjust an output temperature, a wind speed, and a wind direction of the indoor unit;

a controller connection interface, configured to connect the controller, and send the second running parameter of the indoor unit to the controller;

The outdoor unit communication interface is configured to connect the indoor unit, and send the fan control signal generated in the indoor unit to the outdoor unit for execution.

Optionally, the indoor unit further includes:

An indoor unit expansion valve is disposed in the indoor unit, and configured to control a number of opening and closing of the refrigerant transmission pipeline in the indoor unit according to the execution instruction sent by the controller, to control the refrigerant in the refrigerant output tube the amount.

Optionally, the indoor unit further includes:

a temperature detecting unit, connected to the indoor unit expansion valve, for detecting a first temperature, wherein the first temperature includes an air outlet temperature and an air inlet temperature in the indoor unit; or an air inlet tube temperature and an air outlet a tube temperature; or the indoor unit corresponding to an ambient temperature in the environment, and generating a valve control command for controlling the number of times of opening and closing of the indoor unit expansion valve according to the first temperature;

An air processing unit, configured to detect an indoor environmental quality parameter in an environment corresponding to the indoor unit, and activate an air filtering and/or humidifying function in the indoor air handling unit based on the indoor environmental command parameter to adjust the Air quality in an indoor environment.

Optionally, the indoor unit further includes:

a second indoor unit control module, configured to be connected to the first indoor control unit module, configured to receive the first operating parameter information of the first indoor unit control module, and The first operating parameter information is sent to the network server in a wireless transmission manner.

Optionally, the first indoor unit module is a micro control unit MCU, and the second indoor unit module is a system level chip SOC.

Optionally, the controller includes:

a system communication interface, connected to the indoor unit and the outdoor unit, and receiving the first operating parameter information and the second operating parameter information; The terminal communication interface is connected to an intelligent terminal, and configured to send the first operating parameter information and the second operating parameter information to the smart terminal, and receive a running instruction returned by the smart terminal.

Optionally, the controller further includes:

a processing unit, configured to generate, according to the first operating parameter information and the second operating parameter information, an execution instruction for controlling an outdoor unit expansion valve and a controller expansion valve opening number, and passing the execution instruction through the a system communication interface is sent to the indoor unit and the outdoor unit;

a controller expansion valve is connected to the indoor unit expansion valve and the outdoor unit expansion valve through the refrigerant transmission tube, and is configured to adjust the opening and closing times of the controller expansion valve according to the execution instruction of the processing unit, The amount of refrigerant in the refrigerant transfer line is adjusted.

Optionally, the controller further includes:

And a mode control unit, configured to receive a mode control command of the smart terminal, and determine, according to the mode control instruction, that the controller is in a stand-alone mode or a multi-machine mode.

At least one of the following technical effects or advantages exists in one or more embodiments of the embodiments of the present invention:

In the embodiment of the present invention, a plurality of indoor units and a plurality of outdoor units are connected to the controller through a communication interface, and the controller is capable of receiving first operating parameter information of the outdoor unit and second operating parameter information of the indoor unit, and the control The device can adjust all the indoor units connected to the control and all the outdoor units according to the first operating parameter information and the second operating parameter information, thereby solving the prior art in the group of air conditioners without passing through a centralized control platform. Multiple sets of air conditioners are networked and controlled. Therefore, there is also a technical problem that it is impossible to achieve effective centralized control, and the cold source or heat source of each group of air conditioners is allocated as needed, thereby realizing the reception of all air conditioners by the controller. The parameter information is used to adjust all the air-conditioning equipments, and the air-conditioning equipment networking control is realized, which improves the operating efficiency and the use effect of the air-conditioning equipment.

In the embodiment of the present invention, the communication interface between the outdoor unit and the indoor unit is connected to the controller, thereby solving the problem that the split air conditioners in the prior art cannot be networked, and one outdoor unit can only be fixed. The corresponding indoor unit performs cooling or heating, and can not distribute the cold source or the heat source according to the overall needs, which is easy to cause technical problems of resource waste, thereby realizing the networked control of the air conditioning control system, and can realize the correspondence of one external machine. The indoor unit saves the use efficiency of the indoor unit and the outdoor unit in the air conditioning system, and saves the air conditioning system resources.

In the embodiment of the present invention, in the embodiment of the present invention, the communication interface between the outdoor unit and the indoor unit is connected with the intelligent terminal and the network server, thereby realizing the networked control of the air conditioning system, and the outdoor unit and the indoor unit in the air conditioning control system. The operating parameters of the machine are uploaded in real time to realize the operation control and remote detection of the air conditioning control system.

In the embodiment of the present invention, a second indoor unit control module is disposed in the indoor unit, and when the first indoor unit control module is in operation, the second indoor unit control module can replace the first indoor unit control module, thereby solving the present In the technical case, the indoor unit fails, and the normal technical problem cannot be operated, thereby realizing the stability of the operation of the air conditioning control system and improving the resource utilization rate of the air conditioning control system. DRAWINGS

1 is a schematic structural view of an air conditioning system according to an embodiment of the present invention;

2 is a schematic structural view of an outdoor unit according to an embodiment of the present invention;

3 is a schematic structural diagram of an outdoor unit according to an embodiment of the present invention;

4 is a schematic structural diagram of a first indoor unit control module in an indoor unit according to an embodiment of the present invention; FIG. 5 is a schematic structural diagram of an indoor unit communication module according to an embodiment of the present invention; A schematic diagram of the specific structure of the indoor unit in the example;

FIG. 7 is a schematic structural diagram of a controller according to an embodiment of the present invention. detailed description

The present invention provides an air conditioning control system for use in an air conditioning system including M outdoor units and N indoor units, the air conditioning control system comprising: M outdoor units, N indoor units, and controllers, in the M Each outdoor unit in the outdoor unit is provided with an outdoor unit control module, and the outdoor unit controls The module is configured to control a compressor and a fan in each outdoor unit, and detect and obtain first operation parameter information in the outdoor unit; N indoor units, each of the N indoor units is provided with a first indoor a machine control module, the first indoor unit module is configured to detect and acquire second operating parameter information of each indoor unit and first parameter information in a corresponding environment of each indoor unit; and the controller is configured to receive M in the outdoor unit The first operation parameter information, the N second operation parameter information of the N indoor units, and the N first parameter information are processed, and the execution instruction is acquired, and the execution instruction is sent to the M outdoor units and/or N Indoor unit.

Specifically, in the embodiment of the present invention, a plurality of outdoor units and a plurality of indoor units are directly connected to a controller, and the control can receive operation parameter information in each indoor unit and each outdoor unit, and the controller can Processing each outdoor machine and operating parameters in each indoor unit, and then obtaining an execution instruction according to each indoor unit and an operating parameter of each outdoor unit, the execution instruction is sent to the corresponding indoor unit and the outdoor unit, and thus each The indoor unit and the outdoor unit are capable of responding correspondingly according to the execution instruction such that each of the outdoor units and each of the indoor units controls the corresponding device.

The technical solutions of the present invention are described in detail below with reference to the accompanying drawings and specific embodiments. It should be understood that the specific technical features of the embodiments and the embodiments of the present invention are only the detailed description of the technical solutions of the present invention, and not limited to the technical solutions of the present invention. In the case of no conflict, the specific technical features of the embodiments of the present invention and the embodiments may be combined with each other.

FIG. 1 is a schematic structural diagram of an air conditioning control system according to an embodiment of the present invention. First, the air conditioning control system includes M outdoor units, N indoor units, and a controller, wherein each of the N indoor units Each indoor unit has a control connection, and each indoor unit will send its own operating parameters to the controller. The indoor unit operating parameters characterize the operation of each indoor unit, and then each of the M outdoor units The outdoor unit also sends its own operating parameters to the controller, and the operating parameters of the outdoor unit also characterize the operating parameters of the outdoor unit.

In addition, in the embodiment of the present invention, the outdoor unit operating parameters include the identification information of the outdoor unit, and the identification information is used to determine whether the outdoor unit is a host or a slave, and the identifier information can also enable the controller to Sending an instruction to the indoor unit and the outdoor unit, and the controller can send the corresponding instruction to the corresponding indoor unit or the outdoor unit according to the identification information, so that the control can be made The information transmission of the device is more accurate, and the instruction is more targeted.

The specific structure of the indoor unit, the outdoor unit, and the controller in the present invention will be specifically described below with reference to the drawings.

FIG. 2 is a schematic structural diagram of an outdoor unit according to an embodiment of the present invention. In FIG. 2, the outdoor unit includes:

The outdoor unit control unit 201 is provided in the outdoor unit, and is used for controlling a compressor, a fan, a four-way valve, an oil receiving valve, and a fuel supply valve in the indoor unit.

The detecting unit 202 is configured to detect an inlet air temperature of the air inlet duct in the outdoor unit and an air outlet temperature of the air outlet duct.

The outdoor unit communication module 203 is connected to the outdoor unit control unit 201 and the detecting unit 202, and configured to send the air inlet temperature and the air outlet temperature detected by the detecting unit 202 to the controller and/or the indoor unit, and receive the indoor unit control command. And executing the transmission execution command, and then transmitting the control command from the indoor unit and the execution command of the controller to the outdoor unit control unit 201.

Specifically, in the embodiment of the present invention, the outdoor unit control unit 201 includes a press fan control unit 301 and a valve control unit 302 (shown in FIG. 3), wherein the press fan control unit 301 can be based on the indoor The machine or the controller sends an instruction to adjust the compressor connected to the press fan control unit 301 or the fan, and the press fan control unit 301 can adjust the working state of the compressor and the fan according to the instruction of the indoor unit or the controller. For example, when the outdoor unit control unit 201 in the outdoor unit receives a control command, the control command is to increase the output temperature of the indoor unit, and at this time, the outdoor unit control unit 201 sends the control command to the press fan control. The unit 301, after receiving the control command, the press fan control unit 301 controls the compressor and the fan connected to the press fan control unit 301.

The valve control unit 302 is specifically configured to control the opening and closing of the four-way valve, the oil receiving valve, and the oil supply valve in the outdoor unit, that is, after receiving the control instruction of the outdoor unit control unit 201, the valve control unit 302 The valve control unit 302 adjusts the opening and closing states and the number of opening and closing of the four-way valve, the oil receiving valve, and the oil supply valve according to the control command, thereby maintaining the balance of the entire air conditioning system.

In an embodiment of the invention, the outdoor unit further includes an outdoor unit communication module 203, and the outdoor unit communication module The block 203 includes a first communication interface 303 and a second communication interface 304. The first communication interface 303 is configured to be connected to the indoor unit and the controller through the first communication interface 303 (shown in FIG. 3). And receiving the control command of the indoor unit and the execution command sent by the controller, and then transmitting the execution command to the outdoor unit control module 201 in the outdoor unit.

The second communication interface 304 is further included in the outdoor unit communication module 203, and is configured to be connected to the first electronic device and the controller, and send the first operation parameter information of the outdoor unit to the first And an electronic device capable of receiving a selection instruction returned by the first electronic device, wherein the selection instruction is capable of controlling a valve control unit 302 and a press fan control unit 301 in the outdoor unit, for example, the outdoor unit can be combined with a computer or an intelligent The mobile phone is connected, and the outdoor opportunity transmits the operating parameters in the outdoor unit to the computer or the mobile phone in real time, so that the operating parameters of the outdoor unit can be displayed on the computer or the smart phone through the reserved software, and the user can be at the computer Or, the operation mode of the outdoor unit is selected on the smart phone, and the specific operating parameters in the outdoor unit are retrieved. Of course, the specific operating parameters of the outdoor unit need to be acquired, and the outdoor unit can only give the computer when the permission is passed. Or the smart phone provides specific operating parameters of the outdoor unit.

If the user needs to adjust the operation mode of the indoor unit, the user can send a corresponding command to the outdoor unit through the computer or the smart phone, so that the outdoor unit adjusts the outdoor according to the adjustment instruction sent by the computer or the smart phone end. The unit and the device in the machine, thereby adjusting the operation of the outdoor unit.

Further, the outdoor unit further includes a refrigerant transfer pipe 305 and an outdoor unit expansion valve 307. The outdoor unit expansion valve 307 is connected to the refrigerant transfer pipe 305, and the outdoor unit expansion valve 307 is controlled by a control command received by the outdoor unit. Opening and closing, the amount of refrigerant in the refrigerant transfer pipe 305 can be controlled by the opening and closing of the outdoor unit expansion valve 307, and then the temperature of the indoor unit can be adjusted, wherein the opening and closing mode of the outdoor unit expansion valve 307 To: When the outdoor unit expansion valve 307 is closed, it is necessary to determine the number of execution steps of the outdoor unit expansion valve 307 being closed, that is, the outdoor unit expansion valve 307 will be gradually closed, and the closing process needs to be performed in multiple steps.

In the embodiment of the invention, the connection between the outdoor unit, the indoor unit and the controller is realized by the control circuit and the refrigerant transmission tube, and the operation of the system. Therefore, in the embodiment of the present invention, the indoor unit further includes a corresponding function unit, the indoor unit includes a first indoor unit control module, and the first indoor unit control module is configured to detect and acquire a second operation of each indoor unit. Parameter information and first parameter information in a corresponding environment of each indoor unit;

FIG. 4 is a schematic structural diagram of a first indoor unit control module in an outdoor unit according to an embodiment of the present invention, where the first indoor unit module includes:

A fan damper control unit 401 is disposed in the indoor unit and is configured to control a damper provided in the indoor unit and generate a fan control signal for controlling the fan in the outdoor unit.

The indoor unit communication module 402 is disposed in the indoor unit and can be connected to the indoor unit, and sends the fan control signal to the outdoor unit through the indoor unit communication module 402, and through the indoor unit communication module 402 The second electronic device connected to the indoor unit transmits the second operating parameter information.

The indoor unit communication module 402 further includes a plurality of application interfaces. The specific structure of the indoor unit communication module 402 in the embodiment of the present invention is as shown in FIG. 5. The indoor unit communication module 402 specifically includes:

The display communication interface 501 is configured to connect the second electronic device, and send the second operating parameter of the indoor unit to the second electronic device, and display the output second operating parameter on the second electronic device, and simultaneously receive the second An adjustment command returned by the electronic device, the adjustment command is used to adjust the indoor unit output temperature, wind speed, and wind direction.

The display communication interface 501 can be a wireless communication interface, that is, the indoor unit can be connected to an electronic device, and the electronic device can be a mobile phone, a computer or a tablet computer, and the indoor device can pass the indoor communication device through the display communication interface 501. The second operating parameter of the machine is sent to the second electronic device connected to the indoor unit, and the second operating parameter can be displayed on the second electronic device, and the user can select the indoor device on the second electronic device The operation mode, so as to send a corresponding instruction to the indoor unit, when the indoor unit receives the instruction sent by the second electronic device, the indoor opportunity sends the command to the fan damper control unit 401, and the fan damper control unit 401 receives After the instruction, the corresponding damper and the fan connected to the fan damper control unit 401 are controlled, or a control command for controlling the fan of the outdoor unit is generated. The controller is connected to the interface 502, through which the indoor unit can be connected to the controller, and the second operating parameter in the indoor unit can be sent to the controller, so that the controller can detect the indoor in real time. The operation of the machine, and the indoor unit can also receive the control command returned by the control in real time, and then respond accordingly according to the control command.

Of course, only one indoor unit is connected to the controller. In the embodiment of the present invention, the controller is connected to a plurality of indoor units, and each indoor unit has corresponding identification information, and the identification information is Stored in the controller, when the indoor unit sends a control command to the control, the controller parses the identification information in the control command sent by the indoor unit, so that when the control returns the control command, the identifier information is Determine the indoor unit that needs to be sent.

The outdoor unit communication interface 503 is configured to connect to the first communication interface 303, so that the outdoor unit can be connected to the outdoor unit through the outdoor unit communication interface 503 and the first communication interface 303, and the connection is on the circuit. The connection is not the connection between the indoor unit and the refrigerant transmission tube in the outdoor unit. Therefore, the indoor unit can communicate with the outdoor unit through the outdoor unit communication interface 503, when the user When it is required to adjust the temperature in the environment corresponding to the indoor unit, the outdoor unit first receives the user's instruction, and generates a corresponding control instruction according to the user's instruction. After generating the control instruction, the indoor unit passes the control instruction. The outdoor unit communication interface 503 transmits the control command to the outdoor unit, so that after the outdoor unit receives the control command, the outdoor unit control unit 201 in the outdoor unit will operate the compressor, the fan, the four-way valve in the outdoor unit, Adjusted by the oil valve and the fuel supply valve.

In addition, in the indoor unit, in addition to the above-described connection interface, the indoor unit further includes an indoor unit expansion valve 601 (shown in FIG. 6), and the indoor unit expansion valve 601 is disposed at the first end of the refrigerant transfer tube 602. When the controller sends a corresponding control command to the indoor unit, the indoor unit controls the opening and closing of the indoor unit expansion valve 601 according to the control command, so that the indoor unit expansion valve 601 can be opened and closed to control the indoor The amount of refrigerant in the machine can also control the refrigerant balance in the entire air conditioning control system.

Of course, in the embodiment of the present invention, the indoor unit further includes a temperature detecting unit 603, and the temperature detecting unit 603 is capable of detecting a first temperature in the indoor unit, where the first temperature includes an indoor unit The outlet air temperature and the inlet air temperature, or the inlet duct temperature and the outlet duct temperature, or the ambient temperature in the corresponding environment of the indoor unit, generates a valve control command for controlling the number of times of the indoor unit expansion valve switch according to the first temperature, Of course, the valve control command includes an indoor valve control command and an outdoor valve control command.

The indoor unit further includes an air processing unit 604, which detects the air command parameters in the environment corresponding to the indoor unit in real time, and the air command parameters include parameters such as dust degree and humidity in the indoor air. And the air handling unit 604 will determine whether it is necessary to adjust the air quality in the indoor environment based on the detected result, and when the air processing unit 604 determines that the air quality in the indoor environment needs to be adjusted, the indoor unit will activate the The air handling unit 604 processes the air in the indoor environment.

Further, in order to ensure the accuracy of parameter acquisition in the indoor unit, the indoor unit further includes a second indoor unit control module 605, which has the same processing function as the first indoor unit control module, and The second indoor unit control module 605 further has a wireless communication function, and the second indoor unit control module 605 can send the second parameter information corresponding to the indoor unit to the network server or other network electronic device, and The second indoor unit control module 605 is further capable of receiving an instruction sent by the network server and other information, and then controlling the operation of the indoor unit according to an instruction sent by the network server and other information.

It should be noted that, in the embodiment of the present invention, the first indoor unit control module is a micro control unit MCU, and the second indoor unit control module is a system level chip SOC.

The above-mentioned structure is included in the indoor unit and the outdoor unit. The controller in the air-conditioning control system includes a corresponding processing unit. FIG. 7 is a schematic structural diagram of the controller in the embodiment of the present invention, and the controller includes:

The system communication interface 701 is connected to the first communication interface 303 and the controller connection interface 502. After the system communication interface 701 is connected to the first communication interface 303 and the controller connection interface 502, the controller can be connected to the indoor unit and The communication between the outdoor units is realized, that is, the controller receives the first operation parameter information in the outdoor unit and the second operation parameter information in the indoor unit through the system communication interface 701, and then the system communication interface 701 will Operating parameter letter And the second operation parameter information is sent to the processing unit 702, and the processing unit 702 generates a control instruction for controlling the indoor unit and the outdoor unit according to the first operation parameter information and the second operation parameter information, and the processing in the controller The unit 702 will parse out the first operation parameter information and the identification information in the second operation parameter information, and the identification information can be corresponding to each outdoor unit and each indoor unit, thereby enabling the controller to accurately send the controller Go to the corresponding outdoor unit or indoor unit.

The controller further includes a controller expansion valve 703 connected to one end of the refrigerant transmission pipe, that is, the first end of the refrigerant transmission pipe is connected to the outdoor unit expansion valve 307 or connected to the indoor unit. The expansion valve 601 can regulate the balance of the refrigerant in the entire system by the indoor unit expansion valve 601 or the outdoor unit expansion valve 307 and the controller expansion valve 703.

That is, the processing unit 702 is configured to generate an execution instruction for controlling the number of times the outdoor unit expansion valve 307 and the controller expansion valve 703 are turned on according to the first operation parameter information and the second operation parameter information, and Transmitting the execution instruction to the indoor unit and the outdoor unit through the system communication interface 701;

The controller expansion valve 703 is connected to the indoor unit expansion valve 601 and the outdoor unit expansion valve 307 through the refrigerant transmission pipe, and is configured to adjust the controller expansion valve according to the execution instruction of the processing unit 702. 703 opening and closing times to adjust the amount of refrigerant in the refrigerant transfer pipe.

Then, the controller further includes a terminal communication interface 704, the terminal communication interface 704 can be connected to a smart terminal device, and the controller can use the terminal communication interface 704 to receive all indoor units and all outdoor units received by the controller. The operating parameter is sent to the smart terminal device, and the smart terminal is further capable of displaying operating parameters of all the indoor units and all the outdoor units, and the intelligent terminal device is further capable of transmitting a mode selection command to the mode control unit 705 in the controller. The mode control unit 705 is capable of receiving a mode control instruction of the smart terminal, and determining, according to the mode control instruction, that the controller is in a stand-alone mode or a multi-machine mode, and transmitting the determined mode to the indoor unit and the indoor unit. When the mode control command is in the stand-alone mode, the controller will first determine the hosts in all the outdoor units. After determining the host, the controller will only start the host and open the indoor unit corresponding to the host, thereby Can achieve the operation of the stand-alone mode of operation. At least one of the following technical effects or advantages exists through one or more embodiments of the embodiments of the present invention:

In the embodiment of the present invention, a plurality of indoor units and a plurality of outdoor units are connected to the controller through a communication interface, and the controller is capable of receiving first operating parameter information of the outdoor unit and second operating parameter information of the indoor unit, and the control The device can adjust all the indoor units connected to the control and all the outdoor units according to the first operating parameter information and the second operating parameter information, thereby solving the prior art in the group of air conditioners without passing through a centralized control platform. Multiple sets of air conditioners are networked and controlled. Therefore, there is a technical problem that the centralized control can not be effectively performed, and the cold source or heat source of each group of air conditioners is allocated as needed, thereby realizing the parameters of all air conditioners received by the controller. The information is used to adjust all the air-conditioning equipments, and the air-conditioning equipment networking control is realized, which improves the operating efficiency and the use effect of the air-conditioning equipment.

In the embodiment of the present invention, the communication interface between the outdoor unit and the indoor unit is connected to the controller, thereby solving the problem that the split air conditioners in the prior art cannot be networked, and one outdoor unit can only be used for the fixed corresponding indoor unit. Cooling or heating, can not allocate cold source or heat source according to the overall needs, easily cause technical problems of resource waste, and thus realize the networked control of the air conditioning control system, and can realize one external unit corresponding to multiple indoor units, saving The efficiency of the indoor unit and the outdoor unit in the air conditioning system saves resources of the air conditioning system.

In the embodiment of the present invention, a second indoor unit control module is disposed in the indoor unit, and when the first indoor unit control module is in operation, the second indoor unit control module can replace the first indoor unit control module, thereby solving the present In the technical case, the indoor unit fails, and the normal technical problem cannot be operated, thereby realizing the stability of the operation of the air conditioning control system and improving the resource utilization rate of the air conditioning control system.

Those skilled in the art will appreciate that embodiments of the invention may be provided as a method, system, or Computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment, or a combination of software and hardware. Moreover, the invention can be embodied in the form of one or more computer program products embodied on a computer-usable storage medium (including but not limited to disk storage, CD-ROM, optical storage, etc.) in which computer usable program code is embodied.

The present invention has been described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (system), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flowcharts and/or block diagrams, and combinations of flow and/or blocks in the flowcharts and/or block diagrams can be implemented by computer program instructions. These computer program instructions can be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing device to produce a machine for the execution of instructions for execution by a processor of a computer or other programmable data processing device. Means for implementing the functions specified in one or more of the flow or in a block or blocks of the flow chart.

The computer program instructions can also be stored in a computer readable memory that can direct a computer or other programmable data processing device to operate in a particular manner, such that the instructions stored in the computer readable memory produce an article of manufacture comprising the instruction device. The apparatus implements the functions specified in one or more blocks of a flow or a flow and/or block diagram of the flowchart.

These computer program instructions can also be loaded onto a computer or other programmable data processing device such that a series of operational steps are performed on a computer or other programmable device to produce computer-implemented processing for execution on a computer or other programmable device. The instructions provide steps for implementing the functions specified in one or more of the flow or in a block or blocks of a flow diagram. The spirit and scope of the invention. Thus, it is intended that the present invention cover the modifications and variations of the inventions

Claims

Rights request

1. An air conditioning control system applied to an air conditioning system including M outdoor units and N indoor units, wherein M and N are positive integers greater than or equal to 1, characterized in that the system includes:

Each of the M outdoor units is provided with an outdoor unit control module, and the outdoor unit control module is used to control the compressor and fan in each outdoor unit, and detect Obtain first operating parameter information in the outdoor unit;

The N indoor units, each of the N indoor units is provided with a first indoor unit control module, and the first indoor unit control module is used to detect and obtain the second signal of each indoor unit. Operating parameter information and the first operating parameter information in the corresponding environment of each indoor unit;

A controller, configured to process the received M first operating parameter information of the M outdoor units, as well as the N second operating parameter information and the N first operating parameter information of the N indoor units, to obtain Execute instructions, and send the execution instructions to the M outdoor units and/or the N indoor units.

2. The system according to claim 1, characterized in that the outdoor unit control module includes: an outdoor unit control unit, used to control the compressor, fan, four-way valve, oil receiving unit provided in the outdoor unit. valves and oil supply valves;

A detection unit, used to detect the inlet air temperature and outlet air temperature set in the outdoor unit; an outdoor unit communication module, connected to the outdoor unit control unit and the detection unit, used to detect the air temperature detected by the detection unit The inlet air temperature and the outlet air temperature are sent to the controller and/or the indoor unit, and the control instructions from the indoor unit and the execution instructions sent by the controller are received, and the temperature from the indoor unit is transmitted to the outdoor unit control unit. The control instructions of the machine and the execution instructions of the controller.

3. The system of claim 2, wherein the outdoor unit control unit includes: a compressor and fan control unit, used to control the operation of the compressor and the fan; a valve control unit, used to control The opening and closing of the four-way valve, the oil receiving valve and the oil supply valve.

4. The system of claim 2, wherein the outdoor unit communication module includes: a first communication interface, which is provided in the outdoor unit, and communicates with the indoor unit and the indoor unit through the first communication interface. The controller is connected and used to receive the control instructions of the indoor unit and the execution instructions sent by the controller;

A second communication interface is provided in the outdoor unit, used to connect with the first electronic device and the controller, and send the first operating parameter information of the outdoor unit to the first electronic device, And receive the selection instruction returned by the first electronic device, wherein the selection instruction can control the valve control unit and the compressor fan control unit in the outdoor unit.

5. The system according to any one of claims 1 to 4, characterized in that the outdoor unit further includes:

Refrigerant transfer pipe;

The outdoor unit expansion valve is disposed at the starting end of the refrigerant transmission pipe, and controls the number of openings and closings of the refrigerant transmission pipe in the outdoor unit according to the execution instructions sent by the controller.

6. The system of claim 1, wherein the first indoor unit control module includes:

A fan damper control unit is provided in the indoor unit and is used to control the damper provided in the indoor unit and generate a fan control signal for controlling the fan in the outdoor unit;

Indoor unit communication module, the indoor unit can be connected to the outdoor unit through the indoor unit communication module, and the fan control signal is sent to the outdoor unit through the indoor unit communication module, and the fan control signal is sent to the outdoor unit through the indoor unit. The communication module transmits the second operating parameter information to the second electronic device connected to the indoor unit.

7. The system according to claim 6, wherein the indoor unit communication module includes: a display communication interface for connecting the second electronic device and displaying the second operating parameters of the indoor unit. Send to the second electronic device, and display and output the second operating parameter or the first operating parameter on the second electronic device, receive the adjustment instruction returned by the second electronic device, the adjustment instruction Used to adjust the indoor unit output temperature, wind speed and wind direction;

A controller connection interface is used to connect the controller and connect the second operation of the indoor unit to Row parameters are sent to the controller;

The outdoor unit communication interface is used to connect to the indoor unit and send the fan control signal generated in the indoor unit to the outdoor unit for execution.

8. The system according to claim 7, wherein the indoor unit further includes: an indoor unit expansion valve, arranged in the indoor unit and used to control the indoor unit according to the execution instruction sent by the controller. The opening and closing times of the refrigerant transmission pipe in the indoor unit are used to control the amount of refrigerant in the refrigerant output pipe.

9. The system of claim 8, wherein the indoor unit further includes: a temperature detection unit, connected to the expansion valve of the indoor unit, for detecting and obtaining a first temperature, the first temperature including The temperature of the air outlet and the temperature of the air inlet in the indoor unit; or the temperature of the air inlet duct and the temperature of the air outlet duct; or the ambient temperature in the corresponding environment of the indoor unit, and generates according to the first temperature for controlling the Valve control instructions for the number of switching times of the indoor unit expansion valve;

An air processing unit is used to detect indoor environment quality parameters in the corresponding environment of the indoor unit, and activate the air filtration and/or humidification functions in the indoor unit air processing unit based on the indoor environment command parameters to adjust the Air quality in indoor environments.

10. The system of claim 9, wherein the indoor unit further includes: a second indoor unit control module, disposed in the indoor unit, connected to the first indoor unit control module, for Receive the first operating parameter information of the first indoor unit control module, and send the first operating parameter information to the network server in a wireless transmission manner.

11. The system of claim 10, wherein the first indoor unit module is a micro control unit MCU, and the second indoor unit module is a system-on-chip SOC.

12. The system of claim 1, wherein the controller includes: a system communication interface, connected to the indoor unit and the outdoor unit, and receiving the first operating parameter information and the third 2. Operating parameter information;

The terminal communication interface is connected to an intelligent terminal, and is used to send the first operating parameter information and the second operating parameter information to the intelligent terminal, and receive operating instructions returned by the intelligent terminal.

13. The system according to claim 12, wherein the controller further includes: a processing unit, configured to generate, according to the first operating parameter information and the second operating parameter information, a function for controlling the outdoor unit. Execution instructions for the expansion valve and controller expansion valve opening times, and sending the execution instructions to the indoor unit and the outdoor unit through the system communication interface;

The controller expansion valve is connected to the indoor unit expansion valve and the outdoor unit expansion valve through the refrigerant transmission pipe, and is used to adjust the opening and closing times of the controller expansion valve according to the execution instructions of the processing unit to adjust the Describe the amount of refrigerant in the refrigerant transmission pipeline.

14. The system of claim 13, wherein the controller further includes: a mode control unit, connected to the terminal communication interface, for receiving mode control instructions of the smart terminal, and controlling the mode according to the The mode control instruction determines whether the controller is in a single-machine working mode or a multi-machine working mode.