CN108844184B - Air conditioner controller - Google Patents

Abstract

The embodiment of the invention discloses an air conditioner controller, relates to the field of household appliance manufacturing, and can control an air conditioner indoor unit in a wireless communication mode and a wired communication mode. The air conditioner controller comprises a display device and a key device; the display device is connected with the indoor unit through a communication line and comprises a first processing module and a first communication interface connected with the first processing module; the key device comprises a second processing module, a second communication interface connected with the second processing module and a wireless sending module; the first communication interface is connected with or disconnected from the second communication interface in a plugging mode. The embodiment of the invention is applied to air conditioner control.

Description

Air conditioner controller

Technical Field

The embodiment of the invention relates to the field of household appliance manufacturing, in particular to an air conditioner controller.

Background

The control terminals of the central air conditioner mainly comprise two types, namely a wired remote controller (for short, a wire controller) and a wireless remote controller (for short, a remote controller). The wire controller is connected with the indoor unit through a communication wire and can perform interactive processing on information such as modes, temperature, air volume and the like with the indoor unit. The wire controller can be compatible with the functional requirements of various air conditioners, and the functions of the wire controller only need to add options in a menu of the wire controller without newly adding keys for processing. However, the wire controller needs to be fixed on the wall due to the connecting wire and cannot be placed anywhere. In addition, the installation position of the wire controller needs to consider the overall installation style of the room environment, which is sometimes too improbable.

The remote controller has obvious advantages, can be placed at will according to user requirements, and can be used for controlling the on-off, the temperature, the air volume and the like of the air conditioner at will. However, the remote controller cannot perform information interaction with the indoor unit and can only transmit information in a single direction. And with the increase of the air conditioning function, new functions such as energy conservation, silence, sleep and the like are added, more and more keys are arranged on the remote controller. When the user uses the keyboard, the user needs to find the position of a certain function key, which is inconvenient and bad in user experience. From another perspective, the air-conditioning indoor unit often has no information feedback to the current unit operation state of the user, and the user can only know the currently set information such as temperature, mode, air volume and the like from the remote controller, so that the interactive processing of the information between the indoor unit and the outdoor unit cannot be realized.

Disclosure of Invention

The embodiment of the invention provides an air conditioner controller which can control an indoor unit of an air conditioner in a wireless communication mode and a wired communication mode.

In a first aspect, an air conditioner controller is provided, which comprises a display device and a key device; the display device is connected with the indoor unit through a communication line and comprises a first processing module and a first communication interface connected with the first processing module; the key device comprises a second processing module, a second communication interface connected with the second processing module and a wireless sending module;

when the first communication interface is plugged with the second communication interface, the key device is used for detecting a first control signal input by a user through a key through the second processing module and sending the first control signal to the display device through the second communication interface; the display device is used for receiving the first control signal through the first communication interface, processing the first control signal through the first processing module to generate a first control instruction of the indoor unit, and sending the first control instruction to the indoor unit so that the indoor unit can adjust the running state according to the first control instruction.

When the first communication interface is disconnected with the second communication interface, the key device is used for detecting a second control signal input by a user through a key through the second processing module; and the second control signal is sent to the indoor unit through the wireless sending module, so that the indoor unit can adjust the running state according to the second control signal.

In the above scheme, since the display device has the first communication interface and the key device has the second communication interface, the display device and the key device can realize wired communication by plugging the first communication interface and the second communication interface; therefore, when the first communication interface is plugged with the second communication interface, the key device can detect a first control signal input by a user through a key through the second processing module; the first control signal is sent to the display device through the second communication interface; the display device can receive the first control signal through the first communication interface, process the first control signal through the first processing module to generate a first control instruction of the indoor unit, and send the first control instruction to the indoor unit, so that the indoor unit can adjust the running state according to the first control instruction, and the control of the indoor unit is realized.

In addition, because the key device is provided with the wireless transmission module, when the first communication interface is disconnected with the second communication interface; the key device can detect a second control signal input by a user through a key through the second processing module; the second control signal is sent to the indoor unit through the wireless sending module, so that the indoor unit can adjust the running state according to the second control signal, and the control of the indoor unit is realized;

in summary, the embodiments of the present invention provide an air conditioner controller, which can realize control over an indoor unit of an air conditioner in a wired communication manner when a display device and a key device are plugged together through a first communication interface and a second communication interface; when the first communication interface and the second communication interface are disconnected, the display device and the key device are independently used, and the air conditioner controller can control the indoor unit of the air conditioner in a wireless communication mode, so that the air conditioner controller provided by the embodiment of the application can control the indoor unit of the air conditioner in a wireless communication mode and a wired communication mode.

Drawings

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

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

fig. 2 is a schematic structural diagram of an air conditioner remote controller according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a display device and a key device of an air conditioner remote controller according to an embodiment of the present invention in an inserted state;

fig. 4 is a schematic structural diagram of a state in which a display device and a key device of an air conditioner remote controller are separated according to an embodiment of the present invention.

Reference numerals:

an outdoor unit-10;

an indoor unit-20;

an air conditioner controller-30;

a display device-31;

a first processing module-311;

a first communication interface-312;

a wireless receiving module-313;

a display screen-314;

a key device-32;

a second processing module-321;

a second communication interface-322;

a wireless transmission module-323;

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The general air conditioning system comprises an indoor unit and an outdoor unit; the control of the air conditioning system is usually realized by sending a control signal to the indoor unit through an air conditioning controller, and the air conditioning controller in the prior art has two implementation modes: one is a line controller, which is directly connected to the indoor unit through a communication line, and the other is a remote controller, which realizes transmission of a control signal by transmitting a wireless signal to the indoor unit. In the present application, an air conditioner controller is provided for an air conditioning system architecture as shown in fig. 1, which includes an outdoor unit 10, an indoor unit 20, and an air conditioner controller 30, wherein the outdoor unit 10 and the indoor unit 20 can be connected by a wired connection, and the air conditioner controller 30 includes a display device 31 and a button device 32, wherein the display device 31 is connected to the indoor unit 20 through a communication line.

Based on the above air conditioning system architecture, referring to fig. 2, an embodiment of the present application provides an air conditioning controller 30, which includes a display device 31 and a key device 32; the display device 31 comprises a first processing module 311, a first communication interface 312 connected with the first processing module 311; the key device 32 includes a second processing module 321, a second communication interface 322 connected to the second processing module 321, and a wireless transmission module 323.

The first communication interface 312 and the second communication interface 322 may be implemented in the form of a buckle, for example, they may be implemented in the form of a USB interface, a TYPE-C interface, a bus interface, or the like. Thereby realizing the detachable design of the key device 32 and the display device 31 of the air conditioner controller 30.

The control principle of the air conditioner controller 30 for the indoor unit 20 is described as follows:

referring to fig. 3, when the first communication interface 312 is plugged into the second communication interface 322; the key device 32 is configured to detect a first control signal input by a user through a key through the second processing module 321; and transmits the first control signal to the display device 31 through the second communication interface 322; the display device 31 is configured to receive the first control signal through the first communication interface 312, process the first control signal through the first processing module 311 to generate a first control instruction of the indoor unit 20, and send the first control instruction to the indoor unit 20, so that the indoor unit 20 adjusts an operation state according to the first control instruction. The first control signal may be information such as temperature, humidity, wind speed, wind direction, etc. set by the user through the key device 32. When the first communication interface 312 is plugged into the second communication interface 322, the key device 32 transmits the first control signal to the display device 31 through the interface, so that the first control signal is a wired signal, for example, the first control signal is a Universal Asynchronous Receiver/Transmitter (UART) signal.

Referring to fig. 4, when the first communication interface 312 is disconnected from the second communication interface 322; the key device 32 is configured to detect a second control signal input by the user through a key through the second processing module 321; and sends the second control signal to the indoor unit 20 through the wireless sending module 323, so that the indoor unit 20 adjusts the operation state according to the second control signal.

In the above solution, since the display device 31 has the first communication interface 312 and the key device 32 has the second communication interface 322, the two can implement wired communication by plugging the first communication interface 312 and the second communication interface 322; therefore, when the first communication interface 312 is plugged into the second communication interface 322, the key device 32 can detect the first control signal input by the user through the key through the second processing module 321; and transmits the first control signal to the display device 31 through the second communication interface 322; the display device 31 can receive the first control signal through the first communication interface 312, process the first control signal through the first processing module 311 to generate a first control instruction of the indoor unit 20, and send the first control instruction to the indoor unit 20, so that the indoor unit 20 adjusts the operation state according to the first control instruction, thereby controlling the indoor unit 20; in addition, since the key device 32 has the wireless transmission module 323, when the first communication interface 312 is disconnected from the second communication interface 322; the key device 32 can detect a second control signal input by the user through the key through the second processing module 321; the second control signal is sent to the indoor unit 20 through the wireless sending module 323, so that the indoor unit 20 adjusts the operation state according to the second control signal, and the control of the indoor unit 20 is realized;

in summary, the embodiment of the present invention provides that the air conditioner controller 30 can control the indoor unit 20 of the air conditioner in a wired communication manner when the display device 31 and the key device 32 are plugged together through the first communication interface 312 and the second communication interface 322; when the first communication interface 312 and the second communication interface 322 are disconnected, the display device 31 and the key device 32 are used independently, and the air-conditioning controller 30 can control the indoor unit 20 of the air conditioner in a wireless communication manner, so that the air-conditioning controller 30 provided by the embodiment of the present application can control the indoor unit 20 of the air conditioner in a wireless communication manner and a wired communication manner.

Referring to fig. 2, in another example, the display device 31 further includes a wireless receiving module 313. Referring to fig. 4, when the first communication interface 312 is disconnected from the second communication interface 322; the key device 32 is further configured to send the second control signal to the display device 31 through the wireless sending module 323, and the display device 31 is configured to receive the second control signal through the wireless receiving module 313, convert the second control signal into a second control instruction through the first processing module 311, and send the second control instruction to the indoor unit 20, so that the indoor unit 20 adjusts the operation state according to the second control instruction. The second control signal may be information such as temperature, humidity, wind speed, wind direction, etc. set by the user through the key device 32. Since the key device 32 wirelessly transmits the second control signal to the display device 31 when the first communication interface 312 is disconnected from the second communication interface 322, the second control signal is a wireless signal, for example, the second control signal is an infrared wireless signal.

It should be noted that, when the first communication interface 312 is plugged into the second communication interface 322, the display device 31 may shield the function of the wireless receiving module 313, and the key device 32 may shield the function of the wireless transmitting module 323, so as to avoid simultaneous transmission of the control signal in both wireless and wired manners. When the first communication interface 312 is disconnected from the second communication interface 322, the display device 31 may turn on the function of the wireless receiving module 313 and the key device 32 may turn on the function of the wireless transmitting module 323 to realize wireless transmission of the control signal, because the key device 32 cannot transmit the control signal to the display device 31 in a wired manner. In addition, when the first communication interface 312 is disconnected from the second communication interface 322, the remote controller of the air conditioner may transmit the control signal to the indoor unit 20 by default configuration or user selection, in one of the following two manners: the first method is as follows: by directly transmitting the control signal to the indoor unit 20; the second method comprises the following steps: the control signal is transmitted to the display device 31 by wireless, and then transmitted from the display device 31 to the indoor unit 20.

In the above solution, since the display device 31 has the first communication interface 312 and the key device 32 has the second communication interface 322, the two can implement wired communication by plugging the first communication interface 312 and the second communication interface 322; therefore, when the first communication interface 312 is plugged into the second communication interface 322, the key device 32 can detect the first control signal input by the user through the key through the second processing module 321; and transmits the first control signal to the display device 31 through the second communication interface 322; the display device 31 can receive the first control signal through the first communication interface 312, process the first control signal through the first processing module 311 to generate a first control instruction of the indoor unit 20, and send the first control instruction to the indoor unit 20, so that the indoor unit 20 adjusts the operation state according to the first control instruction, thereby controlling the indoor unit 20; in addition, since the key device 32 has the wireless transmission module 323, when the first communication interface 312 is disconnected from the second communication interface 322; the key device 32 can detect a second control signal input by the user through the key through the second processing module 321; the second control signal is sent to the indoor unit 20 through the wireless sending module 323, so that the indoor unit 20 adjusts the operation state according to the second control signal, and the control of the indoor unit 20 is realized; further, when the key device 32 has the wireless transmission module 323 and the display device 31 further includes the wireless reception module 313, when the first communication interface 312 is disconnected from the second communication interface 322; the key device 32 can detect a second control signal input by the user through the key through the second processing module 321; and the second control signal is sent to the display device 31 through the wireless sending module 323, and the display device 31 can receive the second control signal through the wireless receiving module 313, convert the second control signal into a second control instruction through the first processing module 311, and send the second control instruction to the indoor unit 20, so that the indoor unit 20 adjusts the operation state according to the second control instruction.

In summary, the embodiment of the present invention provides that the air conditioner controller 30 can control the indoor unit 20 of the air conditioner in a wired communication manner when the display device 31 and the key device 32 are plugged together through the first communication interface 312 and the second communication interface 322; when the first communication interface 312 and the second communication interface 322 are disconnected, the display device 31 and the key device 32 are used independently, and the air-conditioning controller 30 can control the indoor unit 20 of the air conditioner in a wireless communication manner, so that the air-conditioning controller 30 provided by the embodiment of the present application can control the indoor unit 20 of the air conditioner in a wireless communication manner and a wired communication manner.

In addition, the display device 31 may also display the first control signal and the second control signal sent by the key device 32 to the display device 31 in the above-mentioned scheme, and the display device 31 may also display the operation state information sent by the indoor unit 20.

Referring to fig. 2, the display device 31 further includes a display screen 314, and the display device 31 is configured to receive the operation state information sent by the indoor unit 20, and convert the operation state information into a first display driving signal through the first processing module 311; and sends the first display driving signal to the display screen 314, and the display screen 314 is configured to display the running state information according to the first display driving signal. For example, parameters such as the temperature, the wind speed, the humidity, and the wind direction currently output by the indoor unit 20 are displayed.

In addition, when the first communication interface 312 is plugged into the second communication interface 322, the display device 31 is further configured to convert the first control signal into a second display driving signal through the first processing module 311, and send the second display driving signal to the display screen 314; the display screen 314 is used for displaying the first control signal according to the second display driving signal. The first control signal may be information such as temperature, humidity, wind speed, wind direction, etc. set by the user through the key device 32. Since the key device 32 transmits the first control signal to the display device 31 through the interface when the first communication interface 312 is plugged with the second communication interface 322, the first control signal is a wired signal. For example: the first control signal is a UART signal.

Referring to fig. 2, the display device 31 further includes a wireless receiving module 313, after the first communication interface 312 is disconnected from the second communication interface 322; the display device 31 is configured to receive the second control signal through the wireless receiving module 313, and convert the second control signal into a third display driving signal through the first processing module 311; and sends the third display driving signal to the display screen 314, and the display screen 314 is configured to display the second control signal according to the third display driving signal. The second control signal may be information such as temperature, humidity, wind speed, wind direction, etc. set by the user through the key device 32.

In addition, the first processing module 311 and the second processing module 321 in the above scheme may adopt a control circuit with logic operation capability, such as an MCU, a CPU, an FPGA, and the like, the wireless receiving module 313 may adopt a signal receiving circuit, such as an infrared receiver, an acoustic receiver, a bluetooth receiver, a radio frequency signal receiver, and the like, and the wireless sending module 323 may correspondingly adopt a signal transmitting circuit, such as an infrared signal transmitter, an acoustic transmitter, a bluetooth transmitter, a radio frequency signal transmitter, and the like.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. An air conditioner controller is characterized by comprising a display device and a key device; the display device is connected with the indoor unit through a communication line and comprises a first processing module and a first communication interface connected with the first processing module; the key device comprises a second processing module, a second communication interface connected with the second processing module and a wireless sending module;

when the first communication interface is plugged with the second communication interface;

the key device is used for detecting a first control signal input by a user through a key through the second processing module; sending the first control signal to the display device through the second communication interface;

the display device is used for receiving the first control signal through the first communication interface, processing the first control signal through the first processing module to generate a first control instruction of the indoor unit, and sending the first control instruction to the indoor unit so that the indoor unit can adjust the running state according to the first control instruction;

wherein the first communication interface is disconnected from the second communication interface;

the key device is used for detecting a second control signal input by a user through a key through a second processing module; and sending the second control signal to the indoor unit through the wireless sending module so that the indoor unit can adjust the running state according to the second control signal.

2. The controller of claim 1, wherein when the first communication interface is disconnected from the second communication interface;

the display device further comprises a wireless receiving module, the key device is further used for sending the second control signal to the display device through the wireless sending module, the display device is used for receiving the second control signal through the wireless receiving module, converting the second control signal into a second control instruction through the first processing module, and sending the second control instruction to the indoor unit, so that the indoor unit can adjust the running state according to the second control instruction.

3. The controller according to claim 1, wherein the display device further comprises a display screen, and the display device is configured to receive the operation status information sent by the indoor unit, and convert the operation status information into a first display driving signal through the first processing module; and sending the first display driving signal to the display screen, wherein the display screen is used for displaying the running state information according to the first display driving signal.

4. The controller of claim 1, wherein the display device further comprises a display screen, wherein when the first communication interface is plugged with the second communication interface;

the display device is also used for converting the first control signal into a second display driving signal through the first processing module; and sending the second display driving signal to the display screen, wherein the display screen is used for displaying the first control signal according to the second display driving signal.

5. The controller of claim 1, wherein the display device further comprises a display screen and a wireless receiving module, and after the first communication interface is disconnected from the second communication interface;

the display device is used for receiving the second control signal through the wireless receiving module and converting the second control signal into a third display driving signal through the first processing module; and sending the third display driving signal to the display screen, wherein the display screen is used for displaying the second control signal according to the third display driving signal.

6. The controller according to any one of claims 1 to 5, wherein the first control signal is a wired signal and the second control signal is a wireless signal.

7. The controller according to any one of claims 1-5, wherein the first control signal is a UART signal and the second control signal is an infrared wireless signal.

Images