CN114078315A - Interaction method of infrared remote control equipment, storage medium and terminal equipment - Google Patents

Abstract

The application discloses an interaction method of infrared remote control equipment, a storage medium and terminal equipment, wherein the method comprises the steps that a main control device sends a control instruction to controlled equipment and monitors feedback information corresponding to the control instruction; and if the feedback information is monitored within the preset time, the main control equipment displays prompt information based on the feedback information. According to the method and the device, after the master control device sends the control instruction to the controlled device, the master control device can generate the prompt information based on the feedback information formed by the controlled device according to the control instruction, the response state of the controlled device is reflected through the prompt information, and therefore when the master control device and the controlled device have communication faults, the response state of the controlled device can be rapidly determined based on the prompt information, and the reason of causing the communication faults is further determined.

Description

Interaction method of infrared remote control equipment, storage medium and terminal equipment

Technical Field

The present application relates to the field of infrared remote control technologies, and in particular, to an interaction method for an infrared remote control device, a storage medium, and a terminal device.

Background

The infrared remote controller has the advantages of low power consumption, less interference and the like, is widely applied to electronic equipment such as home appliances, and realizes control of corresponding controlled equipment through the infrared remote controller. However, in the process of interaction between the existing infrared remote controller and the controlled device, when the infrared remote controller and the controlled device have communication failures, the remote controller and the controlled device need to be manually and respectively detected to determine the failure reason.

Disclosure of Invention

The technical problem to be solved by the application is to provide an interaction method of an infrared remote control device, a storage medium and a terminal device aiming at the defects of the prior art.

In order to solve the foregoing technical problem, a first aspect of the embodiments of the present application provides an interaction method for an infrared remote control device, which is applied to a master control device of an infrared control system, where the infrared control system includes the master control device and a controlled device, and the method includes:

the master control equipment sends a control instruction to the controlled equipment and monitors feedback information corresponding to the control instruction;

and if the feedback information is monitored within the preset time, the main control equipment displays prompt information based on the feedback information, wherein the prompt information is used for reflecting the response state of the controlled equipment responding to the control instruction.

The interaction method of the infrared remote control equipment is characterized by further comprising the following steps:

and if the feedback information is not monitored within the preset time, the main control equipment displays a first prompt signal corresponding to the fault of the main control equipment.

The interaction method of the infrared remote control equipment comprises the following steps that if the feedback information is not monitored within the preset time, the main control equipment displays a first prompt signal corresponding to the fault of the main control equipment, wherein the first prompt signal specifically comprises the first prompt signal;

if the feedback information is not monitored within the preset time, the main control equipment retransmits the control instruction and monitors the feedback information corresponding to the control instruction;

and when the sending times of the control instruction reach a preset time threshold value, the main control equipment displays a first prompt signal corresponding to the self fault.

The interaction method of the infrared remote control equipment comprises the steps that the main control equipment is provided with a first infrared transmitter, and the controlled equipment is provided with a first infrared receiver; the sending, by the master device, the control instruction to the controlled device specifically includes:

the main control equipment responds to control operation for triggering a control instruction;

the master control device generates the control instruction based on the control operation, and sends the control instruction to the controlled device through a first infrared transmitter, so that the controlled device receives the control instruction through the first infrared receiver.

According to the interaction method of the infrared remote control equipment, the main control equipment is provided with a second infrared receiver, and the controlled equipment is provided with a second infrared transmitter; the monitoring of the feedback information corresponding to the control instruction specifically includes:

and the master control equipment receives feedback information corresponding to the control instruction through the second infrared receiver, wherein the feedback information is sent by the controlled equipment through the second infrared transmitter.

According to the interaction method of the infrared remote control equipment, the main control equipment is provided with a signal display, and the prompt information comprises a second prompt signal or a third prompt signal; the response state comprises receiving the control instruction and not processing the control instruction, or receiving and processing the control instruction, when the prompt information is a second prompt signal, the response state is receiving the control instruction and not processing the control instruction, and when the prompt information is a third prompt signal, the response state is receiving and processing the control instruction;

if the feedback information is monitored within the preset time, the main control device specifically includes, based on the feedback information, displaying the prompt information:

if the feedback information is monitored within the preset time, the main control equipment acquires the information content carried by the feedback information;

when the information content comprises a first preset signal, the master control device controls the signal display to display a second prompt signal, wherein the first preset signal is used for reflecting that the controlled device receives the control instruction;

and when the information content comprises a first preset signal and a second preset signal, the main control device controls the signal display to display a third prompt signal, wherein the second preset signal is used for reflecting the controlled device to process the control instruction.

An interaction method of infrared remote control equipment is applied to controlled equipment of an infrared control system, the infrared control system comprises a main control equipment and the controlled equipment, and the method comprises the following steps:

the controlled equipment monitors a control instruction sent by the main control equipment;

when the control instruction is monitored, the controlled device forms feedback information based on the control instruction, and sends the feedback information to the main control device, so that the main control device displays prompt information based on the feedback information, wherein the prompt information is used for reflecting the response state of the controlled device responding to the control instruction.

The interaction method of the infrared remote control equipment comprises the steps that the main control equipment is provided with a first infrared transmitter, and the controlled equipment is provided with a first infrared receiver; the monitoring of the control instruction sent by the master control device by the controlled device specifically includes:

and the controlled equipment receives the control instruction through the first infrared receiver, wherein the control instruction is sent by the main control equipment through a first infrared transmitter.

The interaction method of the infrared remote control device, wherein the master control device is configured with a second infrared receiver, the controlled device forms feedback information based on the control instruction, and the sending of the feedback information to the master control device specifically includes:

the controlled equipment generates a first preset signal according to the control instruction and processes the control instruction;

if the control instruction is successfully processed, the controlled equipment generates a second preset signal, and the first preset signal and the second preset signal are used as feedback information;

if the control instruction fails to be processed, the controlled equipment takes the first preset signal as feedback information;

the controlled device sends the feedback information through the second infrared transmitter, so that the master control device receives the feedback information through the second infrared receiver.

A second aspect of the embodiments of the present application provides an infrared interaction system, where the infrared interaction system includes a master device and a controlled device;

the master control equipment is used for the controlled equipment to send a control instruction and monitoring feedback information corresponding to the control instruction; if the feedback information is monitored within the preset time, displaying prompt information based on the feedback information, wherein the prompt information is used for reflecting the response state of the controlled equipment responding to the control instruction;

the controlled device is used for monitoring a control instruction sent by the master control device; when a control instruction is monitored, feedback information is formed based on the control instruction, and the feedback information is sent to the main control equipment, so that the main control equipment displays prompt information based on the feedback information.

A third aspect of the embodiments of the present application provides a computer-readable storage medium, where the computer-readable storage medium stores one or more programs, and the one or more programs are executable by one or more processors to implement the executing steps of the master device in the interaction method of the infrared remote control device as described in any one of the above, and/or to implement the executing steps of the controlled device in the interaction method of the infrared remote control device as described in any one of the above.

A fourth aspect of the embodiments of the present application provides a terminal device, including: a processor, a memory, and a communication bus; the memory has stored thereon a computer readable program executable by the processor;

the communication bus realizes connection communication between the processor and the memory;

when the processor executes the computer readable program, the execution steps of the main control device in the interaction method of the infrared remote control device described above are implemented, and/or the execution steps of the controlled device in the interaction method of the infrared remote control device described above are implemented.

Has the advantages that: compared with the prior art, the method comprises the steps that the main control device sends a control instruction to the controlled device and monitors feedback information corresponding to the control instruction; and if the feedback information is monitored within the preset time, the main control equipment displays prompt information based on the feedback information. According to the method and the device, after the master control device sends the control instruction to the controlled device, the master control device can generate the prompt information based on the feedback information formed by the controlled device according to the control instruction, the response state of the controlled device is reflected through the prompt information, and therefore when the master control device and the controlled device have communication faults, the response state of the controlled device can be rapidly determined based on the prompt information, and the reason of causing the communication faults is further determined.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without any inventive work.

Fig. 1 is a flowchart of an interaction method of an infrared remote control device provided in the present application.

Fig. 2 is a flowchart illustrating an interaction method of an infrared remote control device according to the present application.

Fig. 3 is a schematic structural diagram of an infrared interaction system provided in the present application.

Fig. 4 is a schematic structural diagram of a terminal device provided in the present application.

Detailed Description

The present application provides an interaction method for an infrared remote control device, a storage medium, and a terminal device, and in order to make the purpose, technical solution, and effect of the present application clearer and clearer, the present application is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may also be present. Further, "connected" or "coupled" as used herein may include wirelessly connected or wirelessly coupled. As used herein, the term "and/or" includes all or any element and all combinations of one or more of the associated listed items.

It will be understood by those within the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The inventor finds that the infrared remote controller has the advantages of low power consumption, less interference and the like, is widely applied to electronic equipment such as home appliances and the like, and realizes control over the corresponding controlled equipment through the infrared remote controller. However, the existing infrared remote controller and the controlled device communicate with each other by using infrared unidirectional transmission, and the controlled device only receives and responds to the infrared control signal sent by the infrared remote controller and does not send feedback information to the infrared remote control device. Therefore, in the process of interaction between the infrared remote control equipment and the controlled equipment, if the infrared remote controller fails in communication with the controlled equipment, the problem that the infrared code is sent and received or the problem that the controlled equipment fails cannot be judged, so that the remote control equipment and the controlled equipment need to be manually detected respectively to determine the failure reason, and the labor cost of communication failure detection is increased.

In order to solve the above problem, in this embodiment of the application, the master control device sends a control instruction to the controlled device, and the controlled device, after receiving the control instruction, generates feedback information based on the control instruction, and through the feedback information carries response information of the control instruction, the master control device generates prompt information based on the feedback information, and through the prompt information reflecting the response state of the controlled device to the control instruction, when a communication fault occurs between the master control device and the controlled device, the master control device can quickly determine the response state of the controlled device based on the prompt information, so that the problem of sending or receiving the control instruction or the problem of the controlled device can be determined, and the cause of the communication fault can be quickly determined.

The following further describes the content of the application by describing the embodiments with reference to the attached drawings.

This implementation provides an interaction method for an infrared remote control device, as shown in fig. 3, the method may be used for an infrared control system, the infrared remote control system may include a master control device 10 and a controlled device 20, the master control device 10 and the controlled device 20 perform infrared communication, the master control device 10 sends a control instruction to the controlled device 20, and the controlled device 20 receives the control instruction and sends feedback information to the master control device 10. The master control device 10 is provided with a first infrared transmitter 11 and a second infrared receiver 12, and the controlled device 20 is provided with a first infrared receiver 21 and a second infrared transmitter 22; the master control device 10 sends a control instruction to the controlled device 20 through the first infrared transmitter 11, and the controlled device 20 receives the control instruction through the first infrared receiver 22; the controlled device 20 sends feedback information to the main control device 10 through the second infrared transmitter 21, the main control device 10 receives the feedback information through the second infrared receiver 12, and the two-way interaction between the main control device 10 and the controlled device 20 is realized through the first infrared transmitter 11, the second infrared transmitter 21, the first infrared receiver 12 and the second infrared receiver 22, so that the controlled device can send feedback information formed based on a control instruction sent by the main control device to the main control device, and thus the main control device can determine the response state of the controlled device to the control instruction based on the feedback information and prompt the response state to a user in the form of prompt information, so that the user can quickly determine whether the controlled device responds to the control instruction. In a specific implementation manner, the master control device may be an infrared remote controller, and the controlled device may be a household appliance, such as a television, an air conditioner, a smart lamp, and the like.

In this embodiment, as shown in fig. 1, the interaction method of the infrared remote control device specifically includes:

and S10, the master control device sends a control instruction to the controlled device.

Specifically, the control instruction is used for controlling the controlled device, the control instruction is generated by the main control device and is sent to the controlled device through infrared transmission, and the control instruction may be a volume adjustment instruction, a power switch instruction, a temperature adjustment instruction, program source adjustment, and the like. In a specific implementation manner, the control instruction may be an infrared control code, the master device sends the infrared control code to the controlled device through a first infrared transmitter configured to the master device, and the controlled device may receive the infrared control code through a first infrared receiver configured to the controlled device and respond to the infrared control code to execute a control operation corresponding to the infrared control. For example, if the control operation corresponding to the infrared control code is a power-on operation, the controlled device will execute the power-on operation after receiving the infrared control code.

In an implementation manner of this embodiment, the sending, by the master device, the control instruction to the controlled device specifically includes:

the main control equipment responds to control operation for triggering a control instruction;

the master control device generates the control instruction based on the control operation, and sends the control instruction to the controlled device through a first infrared transmitter, so that the controlled device receives the control instruction through the first infrared receiver.

Specifically, the control operation may be an operation for triggering the main control device to form a control instruction, where the control operation may be an operation formed by a user through a control key on the main control device, a control operation formed by a control instruction sent to the main control device by an external device, a control operation formed by a gesture or voice, or the like. When a user operates the control key on the main control device, the control key is configured on the main control device, the control key can be a mechanical key and/or a touch key, and the control key can comprise a power key, a temperature adjusting key, a wind speed adjusting key, a humidity adjusting key, a volume adjusting key, a number key and the like.

In an implementation manner of this embodiment, the control instruction is an infrared control code, the master control device generates the infrared control code according to the control operation, and sends the infrared control code through the first infrared transmitter, so that the controlled device corresponding to the master control device can receive the infrared control code, and thus the controlled device can respond to the control instruction corresponding to the infrared control code, so that the controlled device can quickly respond to the control operation, and avoid generating control delay.

And S20, the controlled device receives the control instruction, forms feedback information based on the control instruction, and sends the feedback information to the main control device.

Specifically, the control instruction is received by the controlled device, and the master control device sends the control instruction to the controlled device. The feedback information is used for reflecting a response state of the controlled device in response to the control instruction, where the feedback information may include a first preset signal or a first preset signal and a second preset signal, the first preset signal is used for reflecting that the controlled device receives the control instruction, and the second preset signal is used for reflecting that the controlled device receives the control instruction, and the control instruction is processed. It can be understood that, the first preset signal is a precondition of the second preset signal, and the controlled device may generate the second preset signal only after generating the first preset signal, so that the feedback information received by the main control device may only include the first preset signal, or may include the first preset signal and the second preset signal.

In an implementation manner of this embodiment, the forming, by the controlled device, feedback information based on the control instruction, and sending the feedback information to the master control device specifically includes:

the controlled equipment generates a first preset signal according to the control instruction;

if the control instruction is processed, the controlled equipment generates a second preset signal, and the first preset signal and the second preset signal are used as feedback information;

if the control instruction is processed, the controlled equipment takes the first preset signal as feedback information;

the controlled device sends the feedback information through the second infrared transmitter, so that the master control device receives the feedback information through the second infrared receiver.

Specifically, the first preset signal is generated when the controlled device receives a control instruction, and is used for reflecting that the controlled device receives the first preset signal. In practical applications, when the master device sends a control instruction to the controlled device, the controlled device may receive the control instruction or may not receive the control instruction. Therefore, the controlled device monitors the control instruction sent by the main control device, if the control instruction sent by the main control device is monitored, a first preset signal is generated according to the control instruction to indicate that the controlled device receives the control instruction, and if the control instruction sent by the main control device is not monitored, the controlled device does not execute any operation and can not generate feedback information.

Further, after the controlled device receives the control instruction, the controlled device processes the control instruction, and if the controlled device successfully processes the control instruction, the controlled device generates a second preset signal to represent that the control instruction is processed through the second preset signal; and if the controlled equipment does not process the control instruction, not generating a second preset signal. Based on this, after the controlled device generates the first preset signal and the second preset signal, the first preset signal and the second preset signal are used as feedback information, when the controlled device only generates the first preset signal, the first preset signal is used as the feedback information, and when the feedback information only comprises the first preset signal, the controlled device receives the control instruction and does not process the control instruction; and when the feedback information comprises a first preset signal and a second preset signal, indicating that the controlled equipment receives the control instruction and processes the control instruction.

In an implementation manner of this embodiment, the controlled device is configured with a second infrared transmitter, the master control device is configured with a second infrared receiver, the controlled device, after forming the feedback information, may send the feedback information to the master control device through the second infrared transmitter, the master control device receives the feedback information through the second infrared receiver, so that the controlled device interacts with the master control device, and thus, after receiving the control instruction, the controlled device may generate the feedback information based on the control instruction, and send the feedback information to the master control device through the second infrared transmitter configured by the master control device, so that the master control device may obtain a response state of the control instruction, so that when a fault occurs between the master control device and the controlled device, the master control device fault or the controlled device fault may be quickly determined based on the feedback information, thereby making it possible to improve the failure determination speed.

And S30, the main control device receives the feedback information and displays prompt information based on the feedback information, wherein the prompt information is used for reflecting the response state of the controlled device responding to the control instruction.

Specifically, the feedback information is received by the master control device through a second infrared receiver configured in the master control device, and the feedback information is generated based on the control instruction after the controlled device receives the control instruction. The prompt information is generated by the master control device based on the feedback information and is used for reflecting a response state of the controlled device responding to the control instruction, wherein the response state is determined based on the feedback information.

In addition, because the controlled device does not receive the control instruction, the master control device may not receive the feedback information after sending the control instruction. Based on this, after the main control device sends a control instruction, whether feedback information is monitored within a preset time is obtained and detected, if the feedback information is monitored, prompt information is displayed based on the feedback information, and if the feedback information is not monitored, the main control device displays a first prompt signal corresponding to a fault of the main control device, wherein the preset time is preset and is monitoring time for controlling the main control device to monitor the feedback information. In an implementation manner of this embodiment, the preset time may be determined based on a required time from when the master control device sends the control command to when the controlled device receives and analyzes the control command, and the preset time is greater than the required time, so that a time for receiving and analyzing the control command may be reserved for the controlled device, and accuracy of determining that the feedback information is not monitored is improved. In one specific implementation, the preset time is greater than twice the required time, for example, the required time is 110ms, the preset time is 250ms, and the like.

In an implementation manner of this embodiment, if the feedback information is monitored within a preset time, the master control device determines that the failure of the controlled device specifically includes;

if the feedback information is not monitored within the preset time, the main control equipment retransmits the control instruction and monitors the feedback information corresponding to the control instruction;

and when the sending times of the control instruction reach a preset time threshold value, the main control equipment displays a first prompt signal corresponding to the self fault.

Specifically, the preset time threshold is preset and is a termination condition for repeatedly sending the control instruction operation, when the sending time of the control instruction reaches the preset threshold, it is determined that the main control device has a problem, and the main control device displays a first prompt signal corresponding to a fault of the main control device; when the sending times of the control instruction do not reach the preset threshold value, the operation of repeatedly sending the control instruction is continuously executed, so that the situation that feedback information is not received due to signal discarding in the communication process of the main control equipment and the controlled equipment can be avoided, and the accuracy of the prompt signal displayed by the main control equipment is improved.

In this embodiment, when the main control device receives the feedback information, the prompt information displayed by the main control device includes a second prompt signal or a third prompt signal; the response state comprises that the control instruction is received and not processed, or the control instruction is received and processed, when the prompt information is a second prompt signal, the control instruction is received and not processed, and when the prompt information is a third prompt signal, the control instruction is received and processed. Based on this, the main control device specifically includes, based on the feedback information, displaying the prompt information:

the main control equipment acquires the information content carried by the feedback information;

when the information content comprises a first preset signal, the master control device controls the signal display to display a second prompt signal, wherein the first preset signal is used for reflecting that the controlled device receives the control instruction;

and when the information content comprises a first preset signal and a second preset signal, the main control device controls the signal display to display a third prompt signal, wherein the second preset signal is used for reflecting the controlled device to process the control instruction.

Specifically, the signal display is configured for the main control device and configured to display prompt information corresponding to the control instruction, when the main control device receives the feedback information, the prompt information includes a second prompt signal and a third prompt signal, the second prompt signal is used to indicate that the response state is that the control instruction is received and not processed, and the third prompt signal is used to indicate that the response state is that the control instruction is received and processed. In addition, the first preset signal formed by the controlled device is used for indicating that the control instruction is received, and the second preset signal formed by the controlled device is used for indicating that the control instruction is processed. Therefore, when the feedback information comprises a first preset signal and a second preset signal, the response state of the controlled equipment corresponding to the feedback information is to receive and process the control instruction, and the signal display displays a third prompt signal; and when the feedback information comprises a first preset signal, the response state of the controlled equipment corresponding to the feedback information is that the control instruction is received and not processed, and the signal display displays a second prompt signal. Of course, it should be noted that the first prompt signal for reflecting the failure of the master control device itself is also displayed through the signal display.

In a specific implementation manner of this embodiment, as shown in fig. 2, the signal display may be a signal indicator, the first prompt signal, the second prompt signal, and the third prompt signal respectively correspond to one display color of the signal indicator, and the display colors of the first prompt signal, the second prompt signal, and the third prompt signal are different from each other. For example, the display color corresponding to the first prompt signal is red, the display color corresponding to the second prompt signal is yellow, and the display color corresponding to the third prompt signal is green. In addition, the signal display lamp can display each prompting signal through normal lighting, and can also display each prompting signal through a flashing mode. Therefore, when the communication between the master control device and the controlled device fails, the display state of the signal indicator lamp can be acquired, if the signal indicator lamp displays green or yellow, the control instruction is normally received and sent, and the controlled device needs to be checked; if the signal display lamp is red, it indicates that the sending or receiving of the control command is abnormal, and at this time, the master control device needs to be checked (for example, the master control device is aligned with the controlled device, or the master control device is low in power, etc.). In addition, when the main control equipment electric quantity is not enough, the main control equipment can additionally display a fourth prompt signal, wherein the fourth prompt signal is used for reflecting that the main control equipment electric quantity is not enough, for example, the fourth prompt signal is a slow flashing red light of all keys of the main control equipment and the like.

In summary, the present embodiment provides an interaction method for an infrared remote control device, where the method includes that a master control device sends a control instruction to a controlled device, and monitors feedback information corresponding to the control instruction; and if the feedback information is monitored within the preset time, the main control equipment displays prompt information based on the feedback information. According to the method and the device, after the master control device sends the control instruction to the controlled device, the master control device can generate the prompt information based on the feedback information formed by the controlled device according to the control instruction, the response state of the controlled device is reflected through the prompt information, and therefore when the master control device and the controlled device have communication faults, the response state of the controlled device can be rapidly determined based on the prompt information, and the reason of causing the communication faults is further determined.

Based on the interaction method of the infrared remote control device, this embodiment provides an infrared interaction system, as shown in fig. 3, where the infrared interaction system includes a main control device 10 and a controlled device 20;

the master control device 10 is used for the controlled device to send a control instruction and monitor feedback information corresponding to the control instruction; if the feedback information is monitored within the preset time, displaying prompt information based on the feedback information, wherein the prompt information is used for reflecting the response state of the controlled equipment responding to the control instruction;

the controlled device 20 is configured to monitor a control instruction sent by the master control device; when a control instruction is monitored, feedback information is formed based on the control instruction and is sent to the main control equipment, so that the main control equipment displays prompt information based on the feedback information, wherein the prompt information is used for reflecting the response state of the controlled equipment responding to the control instruction.

Specifically, master control equipment 10 is equipped with first infrared transmitter 11 and second infrared receiver 12, controlled equipment 20 is equipped with second infrared transmitter 21 and first infrared receiver 22, master control equipment 10 passes through first infrared transmitter 11 and first infrared receiver 22 and is controlled equipment 20 communication, and controlled equipment 20 passes through second infrared transmitter 21 and second infrared receiver 12 and master control equipment 10 communication, master control equipment 10 includes signal display 13, through signal display 13 shows the prompt message. The working process of the master control device is the same as the working process of the master control device in the interaction method of the infrared remote control device, and the working process of the controlled device is the same as the working process of the controlled device in the interaction method of the infrared remote control device.

Based on the interaction method of the infrared remote control device, the embodiment provides a computer-readable storage medium, where one or more programs are stored, and the one or more programs are executable by one or more processors to implement the steps in the interaction method of the infrared remote control device according to the embodiment.

Based on the above-mentioned interaction method of the infrared remote control device, the present application further provides a terminal device, as shown in fig. 4, which includes at least one processor (processor) 20; a display screen 21; and a memory (memory)22, and may further include a communication Interface (Communications Interface)23 and a bus 24. The processor 20, the display 21, the memory 22 and the communication interface 23 can communicate with each other through the bus 24. The display screen 21 is configured to display a user guidance interface preset in the initial setting mode. The communication interface 23 may transmit information. The processor 20 may call logic instructions in the memory 22 to perform the methods in the embodiments described above.

Furthermore, the logic instructions in the memory 22 may be implemented in software functional units and stored in a computer readable storage medium when sold or used as a stand-alone product.

The memory 22, which is a computer-readable storage medium, may be configured to store a software program, a computer-executable program, such as program instructions or modules corresponding to the methods in the embodiments of the present disclosure. The processor 20 executes the functional application and data processing, i.e. implements the method in the above-described embodiments, by executing the software program, instructions or modules stored in the memory 22.

The memory 22 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to the use of the terminal device, and the like. Further, the memory 22 may include a high speed random access memory and may also include a non-volatile memory. For example, a variety of media that can store program codes, such as a usb disk, a removable hard disk, a Read-only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk, may also be transient storage media.

In addition, the specific processes loaded and executed by the storage medium and the instruction processors in the terminal device are described in detail in the method, and are not stated herein.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (12)

1. An interaction method of infrared remote control equipment is characterized in that the interaction method is applied to main control equipment in an infrared control system, the infrared control system comprises the main control equipment and controlled equipment, and the method comprises the following steps:

the master control equipment sends a control instruction to the controlled equipment and monitors feedback information corresponding to the control instruction;

and if the feedback information is monitored within the preset time, the main control equipment displays prompt information based on the feedback information, wherein the prompt information is used for reflecting the response state of the controlled equipment responding to the control instruction.

2. The method for interacting with an infrared remote control device as recited in claim 1, further comprising:

and if the feedback information is not monitored within the preset time, the main control equipment displays a first prompt signal corresponding to the fault of the main control equipment.

3. The interaction method of the infrared remote control device according to claim 2, wherein if the feedback information is not monitored within the preset time, the main control device displays a first prompt signal corresponding to the fault of the main control device specifically includes;

if the feedback information is not monitored within the preset time, the main control equipment retransmits the control instruction and monitors the feedback information corresponding to the control instruction;

and when the sending times of the control instructions reach a preset time threshold value, the main control equipment displays a first prompt signal corresponding to the self fault.

4. The interaction method of the infrared remote control device as claimed in claim 1, wherein the master device is configured with a first infrared transmitter, and the controlled device is configured with a first infrared receiver; the sending, by the master device, the control instruction to the controlled device specifically includes:

the main control equipment responds to control operation for triggering a control instruction;

the master control device generates the control instruction based on the control operation, and sends the control instruction to the controlled device through a first infrared transmitter, so that the controlled device receives the control instruction through the first infrared receiver.

5. The interaction method of the infrared remote control device as claimed in claim 1 or 4, wherein the master device is configured with a second infrared receiver, and the controlled device is configured with a second infrared transmitter; the monitoring of the feedback information corresponding to the control instruction specifically includes:

and the master control equipment receives feedback information corresponding to the control instruction through the second infrared receiver, wherein the feedback information is sent by the controlled equipment through the second infrared transmitter.

6. The interaction method of the infrared remote control equipment according to claim 1, wherein the master control equipment is configured with a signal display, and the prompt message comprises a second prompt signal or a third prompt signal; the response state comprises receiving the control instruction and not processing the control instruction, or receiving and processing the control instruction, when the prompt information is a second prompt signal, the response state is receiving the control instruction and not processing the control instruction, and when the prompt information is a third prompt signal, the response state is receiving and processing the control instruction;

if the feedback information is monitored within the preset time, the main control device specifically includes, based on the feedback information, displaying the prompt information:

if the feedback information is monitored within a preset time, the main control equipment acquires information content carried by the feedback information;

when the information content comprises a first preset signal, the main control device controls the signal display to display a second prompt signal, wherein the first preset signal is used for reflecting that the controlled device receives the control instruction;

and when the information content comprises a first preset signal and a second preset signal, the master control device controls the signal display to display a third prompt signal, wherein the second preset signal is used for reflecting the controlled device to process the control instruction.

7. An interaction method of infrared remote control equipment is characterized in that the interaction method is applied to controlled equipment of an infrared control system, the infrared control system comprises main control equipment and the controlled equipment, and the method comprises the following steps:

the controlled equipment monitors a control instruction sent by the main control equipment;

when a control instruction is monitored, the controlled device forms feedback information based on the control instruction and sends the feedback information to the main control device, so that the main control device displays prompt information based on the feedback information, wherein the prompt information is used for reflecting the response state of the controlled device responding to the control instruction.

8. The interaction method of the infrared remote control device as claimed in claim 7, wherein the master device is configured with a first infrared transmitter, and the controlled device is configured with a first infrared receiver; the monitoring of the control instruction sent by the master control device by the controlled device specifically includes:

and the controlled equipment receives the control instruction through the first infrared receiver, wherein the control instruction is sent by the main control equipment through a first infrared transmitter.

9. The interaction method of the infrared remote control device according to claim 7 or 8, wherein the master control device is configured with a second infrared receiver, and the controlled device forms feedback information based on the control instruction and sends the feedback information to the master control device specifically includes:

the controlled equipment generates a first preset signal according to the control instruction and processes the control instruction;

if the control instruction is successfully processed, the controlled device generates a second preset signal, and the first preset signal and the second preset signal are used as feedback information;

if the control instruction fails to be processed, the controlled device takes the first preset signal as feedback information;

the controlled device sends the feedback information through the second infrared transmitter, so that the master control device receives the feedback information through the second infrared receiver.

10. An infrared interaction system is characterized by comprising a main control device and a controlled device;

the master control equipment is used for the controlled equipment to send a control instruction and monitoring feedback information corresponding to the control instruction; if the feedback information is monitored within the preset time, displaying prompt information based on the feedback information, wherein the prompt information is used for reflecting the response state of the controlled equipment responding to the control instruction;

the controlled device is used for monitoring a control instruction sent by the master control device; when a control instruction is monitored, feedback information is formed based on the control instruction, and the feedback information is sent to the main control equipment, so that the main control equipment displays prompt information based on the feedback information.

11. A computer readable storage medium, characterized in that the computer readable storage medium stores one or more programs which are executable by one or more processors to implement the steps in the method of interacting with an infrared remote control device as claimed in any one of claims 1 to 6 and/or to implement the steps in the method of interacting with an infrared remote control device as claimed in any one of claims 7 to 9.

12. A terminal device, comprising: a processor, a memory, and a communication bus; the memory has stored thereon a computer readable program executable by the processor;

the communication bus realizes connection communication between the processor and the memory;

the processor, when executing the computer readable program, implements the steps in the interaction method of the infrared remote control device according to any one of claims 1 to 6, and/or implements the steps in the interaction method of the infrared remote control device according to any one of claims 7 to 9.

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