CN108800445B - Control system of weighted air conditioner - Google Patents

Abstract

The invention relates to an air conditioner and discloses an authorized air conditioner control system, which comprises a main control air conditioner and a plurality of sub air conditioners, wherein the main control air conditioner comprises a main air conditioner assembly and a main controller used for controlling the main air conditioner assembly; the sub air conditioner comprises a sub air conditioner component and a sub controller used for controlling the sub air conditioner component; the main controller is in communication connection with the sub-controllers and is used for executing the following modules, and the receiving module is used for receiving and displaying the state of the sub-air-conditioning assembly fed back by the sub-controllers; the control module is used for receiving a control signal input by an operator; the conversion module converts the control signal into a communication signal based on the control signal; and the output module is used for outputting the communication signals. The main air-conditioning assembly and the sub air-conditioning assemblies are controlled through the main controller, and the air-conditioning system is convenient to control.

Description

Control system of weighted air conditioner

Technical Field

The invention relates to an air conditioner, in particular to an authorized air conditioner control system.

Background

An air conditioner, i.e., an air conditioner, a temperature, humidity, and wall air conditioner is a unit for providing a space area (generally, an enclosed space) with a temperature change of air to be processed. Its function is to regulate the parameters of temperature, humidity, cleanliness and air flow rate of air in the room (or closed space, zone) so as to meet the requirements of human body comfort or technological process.

In the existing air conditioners, each air conditioner corresponds to one controller, and in some large places, a plurality of air conditioners are usually arranged, and when the air conditioners are started, each air conditioner needs to be correspondingly started, so that the operation is troublesome.

Disclosure of Invention

Aiming at the problem that the existing air conditioner is troublesome to control in the prior art, the invention aims to provide the control system of the distributed air conditioner, which has the effect of conveniently controlling the air conditioner.

In order to achieve the purpose, the invention provides the following technical scheme:

a distributed air conditioner control system comprises a main control air conditioner and a plurality of sub air conditioners, wherein the main control air conditioner comprises a main air conditioner assembly and a main controller used for controlling the main air conditioner assembly; the sub air conditioner comprises a sub air conditioner component and a sub controller used for controlling the sub air conditioner component; the main controller is in communication connection with the sub-controllers and is used for executing the following modules,

the receiving module is used for receiving and displaying the state of the sub air-conditioning component fed back by the sub controller;

the control module is used for receiving a control signal input by an operator;

the conversion module converts the control signal into a communication signal based on the control signal;

and the output module is used for outputting the communication signals.

By adopting the technical scheme, the information such as the state of the sub-air-conditioning assembly is checked on the main controller, and the control signal is input on the main controller and is converted into the communication signal and is output to the sub-controllers. After receiving the communication signal, the sub-controller converts the communication signal into a signal for controlling the sub-air-conditioning assembly, thereby achieving the effect that the main controller controls the sub-air-conditioning assembly. The air conditioner is convenient to control.

The invention is further provided with: the control module is used for receiving synchronous information input by an operator, acquiring the state of the main air-conditioning assembly and converting the state into a control signal.

By adopting the technical scheme, the main controller inputs the synchronous information, then obtains the working state of the main air-conditioning assembly, and outputs the control signal corresponding to the working state of the main air-conditioning assembly, so that the working state of the sub air-conditioning assembly corresponds to the working state of the main air-conditioning assembly.

The invention is further provided with: the control module is used for receiving a preset signal input by an operator and acquiring a prestored control signal based on the preset signal.

Through adopting above-mentioned technical scheme, the last input of main control unit presets the signal, reads the control signal that prestores to the sub-air conditioner subassembly of control that corresponds, control is convenient.

The invention is further provided with: the main controller is used for executing the following modules,

the editing module is used for acquiring an editing signal input by an operator;

the input module is used for acquiring working mode information, air output information, temperature information and a preset signal corresponding to the editing signal, wherein the working mode information, the air output information and the temperature information are input by an operator based on the editing signal;

and the storage module is used for binding and storing the preset signals based on the acquired working mode information, the air output information and the temperature information.

By adopting the technical scheme, the input module inputs individualized information, the corresponding air conditioner component is controlled, the information for controlling the working state of the sub air conditioner does not need to be input every time, and the sub air conditioner component is convenient to control.

The invention is further provided with: the main controller is provided with a preset button, the editing signal is output by pressing the preset button for more than two seconds, and the preset signal is output by pressing the preset button for less than two seconds.

By adopting the technical scheme, different information is controlled to be input by pressing the preset button for different time lengths, so that the input is convenient, and the binding of the information is convenient.

The invention is further provided with: the preset button is pressed for more than two seconds and less than five seconds to output an editing signal, and no operation is performed when the preset button is pressed for more than five seconds.

By adopting the technical scheme, the operation can be cancelled by pressing the preset button for more than five seconds, and the applicability is strong.

The invention is further provided with: the sub-controller stores the communication signal output by the main controller and is used for executing the following modules,

the acquisition module acquires a return request of a user and acquires a previous communication signal of a command of the sub-air-conditioning component controlled by the sub-controller based on the return request;

and the execution module is used for controlling the sub-air-conditioning component to execute the operation corresponding to the previous communication signal based on the previous communication signal.

By adopting the technical scheme, in actual use, the sub-controllers are used for controlling the sub-air-conditioning assemblies, but sometimes the main controllers are already controlled, and another user may operate the sub-air-conditioning assemblies by mistake, so that the previous commands are covered. The main controller and the sub-controllers are provided with return buttons, and when a return request is input through the return buttons, the command of the sub-controllers is cancelled, and the command is returned to the previous command and executed.

The invention is further provided with: the sub-controller is configured to store a communication signal.

By adopting the technical scheme, the sub-controller stores a single communication signal, so that the previous command can be conveniently inquired.

The invention is further provided with: and the sub-controllers and the main controller are both provided with switching modules, and the switching modules are used for acquiring switching information of a user and switching the main controller into the sub-controllers or switching the sub-controllers into the main controller based on the switching information.

By adopting the technical scheme, the switching information is input, so that the main controller is switched into the sub-controller or the sub-controller is switched into the main controller. Through switching functions, different control modes are realized, and the applicability is strong.

The invention has the following advantages:

1. the main air-conditioning assembly and the sub air-conditioning assemblies are controlled through the main controller, and the air-conditioning system is convenient to control.

2. And enabling the working state of the sub air-conditioning component to correspond to the working state of the main air-conditioning component through the synchronous information. The control of the air conditioning system is convenient.

3. The preset control signal is output through the preset signal, so that the sub-air-conditioning assembly is controlled, and the air-conditioning system is conveniently controlled.

4. Through switching functions, different control modes are realized, and the applicability is strong.

Drawings

Fig. 1 is a schematic overall flow chart of an air conditioning control system.

Detailed Description

The invention is further described with reference to the accompanying drawings.

An authorized air conditioner control system comprises a main control air conditioner and a plurality of sub air conditioners. The master control air conditioner comprises a master air conditioner component and a master controller used for controlling the master air conditioner component. The sub air conditioner comprises a sub air conditioner component and a sub controller used for controlling the sub air conditioner component. The main controller is in communication connection with the sub-controllers. The signal can be transmitted by communication signal transmission modes such as wireless network, Bluetooth, wire and the like.

And the sub-controllers and the main controller are both provided with switching modules, and the switching modules are used for acquiring switching information of users and switching the main controller into the sub-controllers or switching the sub-controllers into the main controller based on the switching information. The position of the main controller corresponds to the main air-conditioning assembly, and the position of the sub-controller corresponds to the sub-air-conditioning assembly. All be provided with the switching button on main control unit and the sub-controller, through pressing the switching button, input switching information to switch main control unit into the sub-controller or switch the sub-controller into main control unit. Through switching functions, different control modes are realized, and the applicability is strong.

The main controller is used for executing the receiving module, the control module, the conversion module and the output module.

The receiving module is used for receiving and displaying the sub-air-conditioning component state fed back by the sub-controller. The main controller and the sub-controllers are provided with display screens and viewing buttons, and by taking the main controller as an example, the viewing buttons are pressed, so that the states of the sub-controllers are acquired through communication signals and displayed. The existing air conditioning assembly has temperature detection work, and the temperature of the environment where the sub air conditioning assembly is located is displayed on the display screen at the same time.

The control module is used for receiving control signals input by an operator. The sub air-conditioning components are controlled according to different control signals input by an operator to execute different temperatures, different air output amounts and different working modes.

The control module is also used for receiving synchronous information input by an operator, acquiring the state of the main air-conditioning assembly and converting the state into a control signal. The main controller and the sub-controller are both provided with synchronous buttons. The operator presses the synchronization button on the main controller, and the state of the main air conditioner component is acquired and converted into a control signal. Thereby making the state of the sub air conditioning assembly correspond to the state of the main air conditioning assembly. Before the sub-controller is switched to the main controller, the synchronization button on the sub-controller is invalid.

The conversion module converts the control signal into a communication signal based on the control signal.

The output module is used for outputting the communication signals. The control signal is converted into a communication signal and is output to the sub-controller. After receiving the communication signal, the sub-controller converts the communication signal into a signal for controlling the sub-air-conditioning assembly, thereby achieving the effect that the main controller controls the sub-air-conditioning assembly. The air conditioner is convenient to control.

The main controller is used for executing the editing module, the input module and the storage module.

The editing module is used for acquiring an editing signal input by an operator. The main controller is provided with a preset button, and the preset button is pressed for more than two seconds and less than five seconds to output an editing signal. No operation is performed when the preset button is pressed for more than five seconds. The operation can be cancelled by pressing the preset button for more than five seconds, and the applicability is strong.

The input module acquires working mode information, air output information, temperature information and a preset signal corresponding to the editing signal, wherein the working mode information, the air output information and the temperature information are input by an operator based on the editing signal.

The storage module binds and stores the preset signals based on the acquired working mode information, the air output information and the temperature information.

The control module is used for receiving a preset signal input by an operator and acquiring a prestored control signal based on the preset signal. The preset signal is output by pressing a preset button for less than two seconds. The preset signal corresponds to a preset button. The preset button is provided in plurality. Different information is bound to each preset button, and applicability is high. The working mode information, the air output information and the temperature information are bound with the preset signal, when the preset button is pressed for less than two seconds, the main controller receives the preset signal, and the main controller searches the prestored working mode information, the air output information and the temperature information and then converts the information into the control signal to be output.

When the sub-controllers are switched into the main controller and the main controller is switched into the sub-controllers, the pre-stored preset signals, the working mode information bound with the preset signals, the air output information and the temperature information are converted into communication signals to be output to the converted main controller for storage.

The sub-controller stores a communication signal output by the main controller. The sub-controller is used for executing the acquisition module and the execution module.

The acquisition module is used for acquiring a return request of a user and acquiring a previous communication signal of a command of the sub-air-conditioning component controlled by the sub-controller based on the return request.

The execution module controls the sub-air-conditioning assembly to execute the operation corresponding to the previous communication signal based on the previous communication signal. In actual use, the sub-controllers are used to control the sub-air conditioning components, but sometimes the main controller is already controlling, and another user may operate erroneously, resulting in the previous command being overwritten. The main controller and the sub-controllers are provided with return buttons, and when a return request is input through the return buttons, the command of the sub-controllers is cancelled, and the command is returned to the previous command and executed.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (8)

1. The utility model provides an authority air conditioner control system, includes master control air conditioner, a plurality of sub-air conditioners, characterized by: the master control air conditioner comprises a master air conditioner assembly and a master controller for controlling the master air conditioner assembly; the sub air conditioner comprises a sub air conditioner component and a sub controller used for controlling the sub air conditioner component; the main controller is in communication connection with the sub-controllers and is used for executing the following modules,

the receiving module is used for receiving and displaying the state of the sub air-conditioning component fed back by the sub controller;

the control module is used for receiving a control signal input by an operator;

the conversion module converts the control signal into a communication signal based on the control signal;

the output module is used for outputting the communication signals;

the method is characterized in that: the sub-controller stores the communication signal output by the main controller and is used for executing the following modules,

the acquisition module acquires a return request of a user and acquires a previous communication signal of a command of the sub-air-conditioning component controlled by the sub-controller based on the return request;

and the execution module is used for controlling the sub-air-conditioning component to execute the operation corresponding to the previous communication signal based on the previous communication signal.

2. The system of claim 1, wherein: the control module is used for receiving synchronous information input by an operator, acquiring the state of the main air-conditioning assembly and converting the state into a control signal.

3. The system of claim 1, wherein: the control module is used for receiving a preset signal input by an operator and acquiring a prestored control signal based on the preset signal.

4. The system of claim 3, wherein: the main controller is used for executing the following modules,

the editing module is used for acquiring an editing signal input by an operator;

the input module is used for acquiring working mode information, air output information, temperature information and a preset signal corresponding to the editing signal, wherein the working mode information, the air output information and the temperature information are input by an operator based on the editing signal;

and the storage module is used for binding and storing the preset signals based on the acquired working mode information, the air output information and the temperature information.

5. The system of claim 4, wherein: the main controller is provided with a preset button, the editing signal is output by pressing the preset button for more than two seconds, and the preset signal is output by pressing the preset button for less than two seconds.

6. The system of claim 5, wherein: the preset button is pressed for more than two seconds and less than five seconds to output an editing signal, and no operation is performed when the preset button is pressed for more than five seconds.

7. The system of claim 1, wherein: the sub-controller is configured to store a communication signal.

8. The system of claim 1, wherein: and the sub-controllers and the main controller are both provided with switching modules, and the switching modules are used for acquiring switching information of a user and switching the main controller into the sub-controllers or switching the sub-controllers into the main controller based on the switching information.

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