CN115200149A - Method for switching control terminal keys based on controlled equipment, control terminal and air conditioning system - Google Patents

Abstract

The invention discloses a method for switching control terminal keys based on controlled equipment, a control terminal and an air conditioning system, wherein the method comprises the following steps: the control terminal obtains and/or receives the change of the current state data of the controlled equipment, and switches the key function and/or the appearance identification based on the current state data of the controlled equipment. According to the scheme provided by the invention, the problems that the existing control terminal is single in function and the physical key function and the appearance are solidified are solved, the capability of intelligently switching the key function and the appearance identification of the control terminal according to the working state of the controlled equipment is realized, and the intelligent interaction experience of the control terminal is improved.

Description

Method for switching control terminal keys based on controlled equipment, control terminal and air conditioning system

Technical Field

The invention relates to the field of intelligent control, in particular to a method for switching keys of a control terminal based on controlled equipment, the control terminal and an air conditioning system.

Background

The intelligent air conditioner has various interaction modes, such as voice interaction, remote controller interaction, image interaction, wireless perception interaction and the like, and the various intelligent interaction modes facilitate a multi-way control terminal and bring intelligent interaction experience. The intelligent household and intelligent equipment is enjoyed, all household equipment is expected to be intelligent, but most of remote control of the equipment is fixed key remote control, the remote controller or the traditional remote controller does not have any intelligence, the flexibility is poor, the remote control function is single, the function is fixed and unchanged, the function keys on the remote controller cannot be dynamically adjusted according to the state of the equipment, and the intelligent effect is achieved.

Although the color screen remote controller matched with the air conditioner in the painting era is developed by China, the multimedia function key and the air conditioner adjusting key can be freely switched, the remote controller is still a fixed preset physical key, and the intelligent degree has a larger improvement space, so that a method for intelligently switching the key function based on the remote controller is provided.

Disclosure of Invention

The invention mainly relates to a method for controlling a terminal to intelligently switch key functions, which comprises the following steps: the control terminal obtains and/or receives the change of the current state data of the controlled equipment; the key function and/or appearance identification is switched based on the current state data of the controlled device. According to the scheme, the control terminal and the controlled equipment synchronize state data, the control terminal intelligently switches the key functions and/or displays corresponding appearance marks according to the acquired equipment state data, so that a user can execute related operations according to the current state of the controlled equipment, the controlled equipment is controlled through more intelligent key operation, the problems that the existing control terminal is single in function and solidified in physical key function and appearance are solved, the humanized experience that the user can control the terminal by picking up a remote controller is met, and the intelligent interaction experience of products is further improved.

In a first aspect of the present invention, a method for switching control terminal keys based on controlled devices includes:

and switching the key functions and/or the corresponding appearance identifications of the control terminal based on the current state data of the controlled equipment.

As a further embodiment of the first aspect of the present invention, the switching the key function and/or the corresponding appearance identifier of the control terminal based on the current state data of the controlled device includes:

establishing communication connection between the control terminal and the controlled equipment;

receiving or acquiring current state data of the controlled equipment in real time;

judging whether the current state of the controlled equipment changes or not;

and if the change occurs, switching the key function and/or the corresponding appearance identifier of the control terminal based on the current state data of the controlled equipment.

As a further embodiment of the first aspect of the present invention, the switching the key function and/or the corresponding appearance identifier of the control terminal based on the current state data of the controlled device includes:

awakening the control terminal;

enabling the control terminal to generate a state synchronization request instruction and sending the state synchronization request instruction to the controlled equipment;

the controlled equipment generates current state data after receiving the state synchronization request instruction and sends the current state data to the control terminal;

and the control terminal switches the key function and/or the corresponding appearance identification of the control terminal based on the current state data sent by the controlled equipment.

As a further embodiment of the first aspect of the present invention, the manner of waking up the control terminal includes: key wake-up and/or inductive wake-up;

the key awakening comprises: waking up the control terminal by responding to the key being pressed;

the inductive wakeup includes: and detecting that the control terminal is taken up by a user to wake up the control terminal through a sensor arranged in the control terminal.

As a further embodiment of the first aspect of the present invention, the keys of the control terminal include a fixed key and a movable key, the fixed key has a function of switching the function mode of the control terminal and a fixed appearance identifier, and the movable key can switch different function and/or appearance identifiers according to the mode change of the controlled device; the key function and/or the corresponding appearance mark of the switching control terminal aim at the active key.

As a further embodiment of the first aspect of the present invention, the generating, by the controlled device, current state data after receiving the state synchronization request instruction includes:

the controlled equipment acquires the current state of the controlled equipment and generates current state data after receiving the state synchronization request instruction;

and the controlled equipment sends the state data to the control terminal.

As a further embodiment of the first aspect of the present invention, the switching, by the control terminal, the key function and/or the corresponding appearance identifier of the control terminal based on the current state data sent by the controlled device includes:

the control terminal analyzes the function mode of the controlled equipment from the received state data;

matching corresponding key mode data based on the function mode of the controlled equipment;

and switching the key function and the appearance identification according to the matched functional mode data.

As a further embodiment of the first aspect of the present invention, before matching the corresponding key pattern data based on the function pattern of the controlled device, the method further includes:

and storing an association mapping table of the function mode of the controlled equipment, the key function and the appearance identification of the control terminal at the control terminal.

As a further embodiment of the first aspect of the present invention, the functional mode of the controlled device stored by the control terminal corresponds to a part or all of the functional modes of the controlled device.

As a further embodiment of the first aspect of the present invention, the working modes of the controlled device stored in the control terminal include a default mode and an intelligent mode, the default mode is a working mode determined by default working parameters set by the control terminal, and the intelligent mode is a working mode in which the control terminal automatically matches the working mode of the controlled device.

As a further embodiment of the first aspect of the invention, the default mode and the mode operate simultaneously.

As a further embodiment of the first aspect of the present invention, the function modes of the controlled device include a plurality of function modes, and when the controlled device simultaneously starts any one or more function modes of the default mode and the mode, the function mode in the intelligent mode is preferentially responded.

As a further embodiment of the first aspect of the present invention, the function of the fixed key is to manually switch the function mode of the control terminal, and when the control terminal is currently in the intelligent mode, the intelligent mode is switched to the default mode through the fixed key; when the control terminal is in the default mode, the default mode is switched to the intelligent mode through the fixed key; meanwhile, the switching priority of the default mode and the multiple functional modes is set by user definition according to user habits.

In another aspect, the present invention provides a control terminal with a switch key function, which includes one or more processors and a non-transitory computer-readable storage medium storing program instructions, wherein when the program instructions are executed by the one or more processors, the one or more processors are configured to implement any one of the methods described above.

In yet another aspect, a non-transitory computer readable storage medium is provided having program instructions stored thereon, which when executed by one or more processors, are configured to implement the method of any of the above embodiments.

In another aspect, the invention provides an air conditioning system with a button switching function, which includes an air conditioner and the control terminal of the above embodiment, where the air conditioner is used as the controlled device, and the control terminal is a remote controller; the air conditioner comprises a first main control module unit and a first communication module unit; the remote controller comprises a second main control module unit, a second communication module unit, a second storage module unit and a second analysis processing module unit; the second storage module unit is used for storing a mapping relation table which is provided with a plurality of functional modes and corresponds to the key functions and the appearance marks of the air conditioner; the second analysis processing module unit is used for analyzing and processing the current state data of the air conditioner and performing state mode matching with the mapping relation table stored in the second storage unit so that the remote controller can switch key functions and/or corresponding appearance marks according to different current states of the air conditioner; the air conditioner and the remote controller are in communication connection through the first communication module unit and the second communication module unit; the remote controller sends a state synchronization instruction to the air conditioner through the second main control module unit; the air conditioner receives a state synchronization instruction of the remote controller through the first main control unit and generates current state data; the remote controller receives or acquires the current state data of the air conditioner through the second analysis processing module unit, the second storage unit and the second main control module unit, and controls the key function and/or the corresponding appearance identification of the remote controller based on the current state data of the air conditioner.

Drawings

In order to more clearly illustrate the technical solution of the present invention, 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 invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a flowchart illustrating a method for controlling a terminal to switch keys intelligently according to an embodiment of the present invention;

fig. 2 is a flowchart illustrating a method for intelligently switching keys of an air conditioner remote controller according to an embodiment of the present invention;

FIG. 3 is a schematic diagram showing a temperature adjustment function mode of a remote controller according to an embodiment of the present invention;

FIG. 4 illustrates a diagram of a functional mode of a picture set according to an embodiment of the present invention;

FIG. 5 is a diagram illustrating multimedia functions of a remote controller according to an embodiment of the present invention;

fig. 6 is a schematic diagram illustrating a data circulation process in the air conditioning system according to the embodiment of the present invention.

Detailed Description

As used herein, the terms "first," "second," and the like may be used to describe elements of exemplary embodiments of the invention. These terms are only used to distinguish one element from another element, and the inherent features or order of the corresponding elements and the like are not limited by the terms. Unless otherwise defined, all terms (including technical or scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms, such as those defined in commonly used dictionaries, are to be interpreted as having a meaning that is consistent with their context in the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Those skilled in the art will understand that the devices and methods of the present invention described herein and illustrated in the accompanying drawings are non-limiting exemplary embodiments and that the scope of the present invention is defined solely by the claims. Features illustrated or described in connection with one exemplary embodiment may be combined with features of other embodiments. Such modifications and variations are intended to be included within the scope of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, a detailed description of related known functions or configurations is omitted to avoid unnecessarily obscuring the technical points of the present invention. In addition, the same reference numerals refer to the same circuits, modules or units throughout the description, and repeated descriptions of the same circuits, modules or units are omitted for brevity.

Further, it should be understood that one or more of the following methods or aspects thereof may be performed by at least one control system, control unit, or controller. The term "control unit", "controller", "control module" or "master control module" may refer to a hardware device including a memory and a processor, and the term "air conditioner" may refer to a device similar to a refrigeration device. The memory or computer-readable storage medium is configured to store program instructions, while the processor is specifically configured to execute the program instructions to perform one or more processes that will be described further below. Moreover, it is to be appreciated that the following methods may be performed by including a processor in conjunction with one or more other components, as will be appreciated by one of ordinary skill in the art.

The invention provides a method for controlling a terminal to switch a key function intelligently, which is a method for switching a control terminal key based on controlled equipment. The key function and/or the corresponding appearance identification of the control terminal are/is switched based on the current state data of the controlled equipment. The method can be triggered when the remote controller is awakened by induction from a dormant state, and can also be triggered when the remote controller works normally after the remote controller is awakened by induction.

Wherein the content of the first and second substances,

(1) The triggering during normal operation after the induction wake-up may be:

the switching of the key function and/or the corresponding appearance identifier of the control terminal based on the current state data of the controlled device includes:

establishing communication connection between a control terminal and controlled equipment;

receiving or acquiring current state data of the controlled equipment in real time;

judging whether the current state of the controlled equipment changes or not;

and if the change occurs, switching the key function and/or the corresponding appearance identification of the control terminal based on the current state data of the controlled equipment.

(2) The control idea triggered by the induction awakening in the dormant state is as follows:

based on the current state data of the controlled device, switching the key function and/or the corresponding appearance identifier of the control terminal, including:

waking up the control terminal;

enabling the control terminal to generate a state synchronization request instruction and sending the state synchronization request instruction to the controlled equipment;

the controlled equipment generates current state data after receiving the state synchronization request instruction and sends the current state data to the control terminal;

and the control terminal switches the key function and/or the corresponding appearance identification of the control terminal based on the current state data sent by the controlled equipment.

The specific manner of waking up the control terminal may include: key wake-up and/or inductive wake-up; wherein, the button awakens including: waking up the control terminal by responding to the key being pressed; the induction wake-up comprises: and detecting that the control terminal is taken up by a user to wake up the control terminal through a sensor arranged in the control terminal.

Further, it is preferable that the keys of the control terminal include a fixed key and a movable key, the fixed key has an effect of switching the function mode of the control terminal and a fixed appearance mark, and the movable key can switch different functions and/or appearance marks according to the mode change of the controlled device; the key functions and/or corresponding appearance identifications of the switching control terminal are only directed to the active keys.

In particular, other further improvements are further illustrated by reference to the examples.

Example one

Specifically, as shown in the embodiment provided in fig. 1, the method for controlling the terminal to intelligently switch the key function in this embodiment may at least include the following two steps S1 and S2:

s1, the control terminal obtains and/or receives the change of the current state data of the controlled equipment in real time.

And S2, switching the key function and the appearance identification based on the current state data of the controlled equipment.

Wherein:

s1, the control terminal obtains and/or receives the change of the current state data of the controlled equipment.

After the control terminal establishes communication connection with the controlled device, the method for sensing the change of the current state data of the controlled device by the control terminal at least comprises the following three modes S11, S12 and S13:

and S11, the control terminal receives the current state change data actively fed back by the controlled equipment.

The step of receiving the state change data of the controlled equipment by the control terminal comprises the following three steps:

and S111, if the current function mode of the controlled equipment is changed, immediately generating/acquiring current state data.

And S112, the controlled equipment sends the current state data to the control terminal.

And S113, the control terminal receives the current state data of the controlled equipment.

And S12, the control terminal receives or acquires the current state data of the controlled equipment in real time and judges the current state data.

And S121, the controlled equipment generates/acquires the current state data in real time/at regular time.

And S122, the controlled equipment sends the current state data to the control terminal.

And S123, the control terminal receives the current state data of the controlled equipment in real time.

S124, based on the received current status data, determining whether the current status data is consistent with the last received status data. If the current function mode is consistent with the current function mode, the current function mode of the controlled equipment is not processed, and if the current function mode is not consistent with the current function mode, the current function mode of the controlled equipment is changed.

And S13, the control terminal is awakened, and the current state data of the controlled equipment is synchronized.

After the control terminal is awakened, the current state data of the controlled equipment can be automatically synchronized. The process at least comprises six steps of S131, S132, S133, S134, S135 and S136:

and S131, waking up the control terminal.

The control terminal is awakened, namely enters the working mode from the sleep mode, and the control terminal comprises two modes of S1311 and S1312:

s1311, the key wakes up by responding to the key being pressed to wake up the control terminal.

And S1312, inducing and awakening, wherein the awakening control terminal detects that the control terminal is taken up by a user through a sensor arranged in the control terminal so as to awaken the control terminal. The sensors include, but are not limited to, acceleration sensors, orientation sensors, gyroscope sensors, gravity sensors, rotation vector sensors, and the like, which sense the movement of an object, and sensors which sense the touch of a user on the control device.

S132, the control terminal sends a state synchronization request instruction to the controlled equipment.

And the control terminal generates a state synchronization request instruction and sends the state synchronization request instruction to the controlled equipment.

And S133, the controlled equipment receives a state synchronization request instruction of the control terminal.

And S134, the controlled equipment acquires the current state data.

And S135, the controlled equipment sends the current state data to the control terminal.

And S136, the control terminal receives the state data of the controlled equipment.

And S137, the control terminal analyzes the state data to obtain the function mode of the controlled equipment.

And S2, switching the key function and the appearance identification based on the current state data of the controlled equipment.

The control terminal stores a mapping table of which the function mode is associated with the key function and the appearance identification, and the same mode data is matched from the mapping table based on the function mode of the controlled equipment; the function modes stored by the control terminal correspond to partial or all function modes of the controlled equipment. The operation mode and the key type of the control terminal are as follows S21, S22:

s21, the working modes of the control terminal comprise the following two modes which can run simultaneously:

and S211, the default mode is the working mode determined by the default working parameters set by the control terminal.

And S212, the intelligent mode is a working mode of automatically matching the working mode of the controlled equipment by the control terminal.

The intelligent mode comprises a plurality of functional modes, and when the controlled equipment simultaneously starts any one or more functional modes under the operation default mode and the intelligent mode, the functional mode under the intelligent mode is preferentially responded;

s22, the keys of the control terminal comprise the following two keys:

s221, fixing a key, wherein the key has the function of switching the function mode of the control terminal and a fixed appearance identifier, and when the control terminal is currently in the intelligent mode, switching the intelligent mode to the default mode through the fixed key; when the control terminal is in a default mode, the default mode can be switched to an intelligent mode through the fixed keys; meanwhile, the switching priority of the default mode and the multiple functional modes can be set in a user-defined mode according to user habits.

S222, moving the key, and switching different functions and/or appearance marks according to mode conversion of the controlled equipment; the key function and/or corresponding appearance mark of the switching control terminal aims at the active key.

And the control terminal switches the function of the movable key and the appearance identification according to the matched functional mode data. The appearance identifiers of the keys of the control terminal include but are not limited to icons, characters and symbols.

After the state data of the controlled equipment is synchronized to the control terminal, the function and appearance identification data of the movable keys of the control terminal are updated to a function mode matched with the state of the controlled equipment, so that a user can operate the controlled equipment conveniently, and intelligent control experience is provided for the use of the controlled equipment.

Example two

The embodiment of the invention provides an air conditioner remote controller capable of intelligently switching key functions, which comprises a main control module unit, a wireless module communication unit, a storage module unit, an analysis processing module unit and the like, wherein the main control module unit is used for logic control, scheduling and the like; the wireless module communication unit is used for the communication between the remote controller and the equipment, and the communication mode can select WiFi, bluetooth, zigBee and other communication modes; the storage module unit is used for storing a functional mode and a functional mode key corresponding to the state of the air conditioner; the analysis processing module unit is used for analyzing and processing the state data of the air conditioner and performing state mode matching with the database of the storage unit so that the remote controller can execute function key switching of different modes according to different states.

As shown in fig. 2, the function of the intelligent switching key supported by the air conditioner remote controller includes the following seven steps:

first, the user wakes up the remote controller.

The remote controller has a sleep mode and a working mode, a user wakes up the remote controller through a key, or a gyroscope sensor is configured at the end of the remote controller, and the remote controller is woken up to execute a state synchronization instruction when the gyroscope sensor detects that the user picks up the remote controller. The remote controller can also be configured with sensors for sensing the touch of a user on the remote controller, and the remote controller is awakened only by recognizing the state of the user holding/holding the remote controller, namely, the remote controller enters the working mode from the sleep mode.

And step two, when the remote controller is awakened, the remote controller main control unit immediately sends a state synchronization request instruction to the air conditioner.

After the remote controller enters the working mode, the main control unit can be utilized to immediately send a state synchronization request instruction to the air conditioner.

And thirdly, the air conditioner receives the state synchronization request instruction for processing.

The air conditioner receives the state synchronization request command sent by the remote controller and immediately responds.

And fourthly, the air conditioner acquires the current state, feeds back the current state data information and sends the current state data information to the remote controller.

The air conditioner arranges the current working state into state data information and sends the state data information to the remote controller.

The state data is generally data of the current equipment state, as shown in fig. 3, if the air conditioner is in a temperature regulation state, that is, related data such as temperature, wind speed, mode and the like, the remote controller synchronously displays the temperature, the wind speed, the mode and the like, and the function keys are synchronously switched to the temperature regulation function mode; as shown in fig. 4, if the picture is in the album state, the picture related data is obtained; as shown in fig. 5, if in the multimedia state, the data is related to multimedia; the purpose is to judge and identify the state of the air conditioner and further switch different functional key modes.

And fifthly, the remote controller receives the state data fed back by the air conditioner.

The remote controller receives the state data sent by the air conditioner.

And sixthly, the remote controller analyzes and identifies the state data.

The remote controller analyzes and identifies the received state data of the air conditioner to determine the current functional mode of the air conditioner.

And seventhly, intelligently switching the key functions and displaying corresponding icons according to the analyzed air conditioner state data.

The appearance marks of the keys of the remote controller include but are not limited to icons, characters and symbols.

The working modes of the remote controller comprise a default mode and an intelligent mode, wherein the default mode is a working mode determined by default working parameters set by the remote controller, and the intelligent mode is a working mode determined by automatically matching the working mode of the air conditioner with the remote controller. The keys of the remote controller comprise fixed keys and movable keys, the fixed keys have the function of manually switching the working mode of the remote controller, and when the remote controller is in the intelligent mode, the intelligent mode can be switched to the default mode through the fixed keys; when the remote controller is in the default mode, the default mode can be switched to the intelligent mode through the fixed keys.

After the state data of the air conditioner is synchronously sent to the remote controller, the function of the movable key of the remote controller and the appearance identification data can be updated to a function mode matched with the state of the air conditioner, so that a user can operate the air conditioner conveniently, and intelligent control experience is provided for the use of the air conditioner.

This embodiment may specifically be exemplified by: an air conditioner is provided with a display screen which has the function of a smart television besides the temperature adjusting function of the air conditioner. The user picks up the air conditioner remote control and the remote control wakes up, at which time the remote control is as in fig. 3. After the temperature is reduced to a designated temperature value through the temperature button, the air conditioner starts to perform cooling operation at the moment. Meanwhile, when the screen lock screen of the air conditioner is in the picture set mode, the appearance of the movable keys of the remote controller can be changed to be as shown in fig. 4, and the remote controller has the functions of directly adjusting the appearance and the corresponding functions of the keys of the last picture set, the next picture set, the picture set and the return. At this time, the user can browse the picture set by the current key of the remote controller. If the user turns on the smart television function of the air conditioner and enters the multimedia mode, the appearance of the air conditioner remote controller switching active keys is shown in fig. 5, and the user can control parameters such as the volume of the multimedia and the progress adjustment through the current active keys. If the user wants to adjust the air conditioning temperature again, the user can return to the air conditioning adjustment interface shown in fig. 3 by pressing the fixed button to set and adjust the temperature.

EXAMPLE III

The embodiment of the invention provides an air conditioning system capable of intelligently switching key functions, which comprises an air conditioner and the air conditioner remote controller in the second embodiment. The air conditioner is used as controlled equipment, and the control terminal is a remote controller.

The basic structure of the embodiment is as follows: the air conditioner comprises a first main control module unit and a first communication module unit; the remote controller comprises a second main control module unit, a second communication module unit, a second storage module unit and a second analysis processing module unit; the second storage module unit is used for storing a mapping relation table which is provided with a plurality of functional modes and corresponds to the key functions and the appearance marks of the air conditioner; the second analysis processing module unit is used for analyzing and processing the current state data of the air conditioner and carrying out state mode matching with the mapping relation table stored in the second storage unit so that the remote controller can switch the key function and/or the corresponding appearance identification according to different current states of the air conditioner; the air conditioner and the remote controller are in communication connection through the first communication module unit and the second communication module unit; the remote controller sends a state synchronization instruction to the air conditioner through the second main control module unit; the air conditioner receives a state synchronization instruction of the remote controller through the first main control unit and generates current state data; the remote controller receives or acquires the current state data of the air conditioner through the second analysis processing module unit, the second storage unit and the second main control module unit, and controls the key function and/or the corresponding appearance identification of the remote controller based on the current state data of the air conditioner.

Further, this air conditioner belongs to intelligent air conditioner, possesses the voice function, can carry out relevant functional control such as voice control, voice broadcast. The intelligent air conditioner is an intelligent air conditioner product with a large screen, has the mainstream functions of large-screen equipment, has the functions of multimedia, television, voice interaction, equipment linkage and the like, and can display a picture set in a standby mode. The multimedia function and the basic control function of the air conditioner can be simultaneously started. The air conditioner is provided with an intelligent color screen remote controller which can be used for temperature regulation control in an air conditioning mode, function control in a multimedia mode and the like.

The functional modes of the air conditioner include an air conditioning mode, a picture set mode, a multimedia mode, and the like. The air conditioner can also comprise a loudspeaker unit, a voice module unit and the like, and the air conditioner can be connected with an intelligent home system in a linkage mode. The main control module unit can also be used for logic control, scheduling, controlling the adjustment setting of the air conditioner and the like; the communication module unit can also be used for terminal communication, networking communication among devices and the like, such as WiFi; the loudspeaker unit is used for feedback broadcast, multimedia music play, audio resource output and the like, such as SPK; the voice module is used for voice, entertainment resource related functions and the like.

When the air conditioning system operates, the air conditioner is in communication connection with the remote controller and is controlled by a key instruction of the remote controller. The remote controller comprises three function modes including but not limited to displaying the air conditioner, when the air conditioner simultaneously starts a multimedia function and a basic control function of the air conditioner, the state preferentially displays the multimedia function mode, and the priority can be set by user custom according to the habit of a user.

As shown in fig. 6, after the air conditioner is connected to the remote controller, the data of the air conditioning system is circulated between the remote controller and the air conditioner, which mainly includes three steps S1, S2, and S3:

s1, when the remote controller is awakened, a state synchronization request instruction is immediately sent to the air conditioner.

The remote controller has two awakening modes: key wake-up and inductive wake-up.

When the remote controller key is pressed by a user, the key is triggered to wake up, and the remote controller is induced to wake up.

When the remote detects the user being picked up by the sensor, a wake-up is triggered.

And after the remote controller is awakened, immediately sending a state synchronization request instruction to the air conditioner.

And S2, the air conditioner replies the state synchronization request of the remote controller.

After receiving the state request instruction, the air conditioner generates the current air conditioner state data including the function mode, or acquires the existing current air conditioner state data, and sends the state data to the remote controller.

And S3, the remote controller switches the key function and/or the appearance identification according to the state synchronization request instruction, and the air conditioner is controlled according to the key state of the current remote controller.

After the remote controller receives the state data replied by the air conditioner, the following four steps S31, S32, S33 and S34 are required to be carried out to complete the intelligent switching key of the remote controller to operate the air conditioner.

And S31, the remote controller analyzes the received current state data of the air conditioner.

The remote controller analyzes the function mode based on the received current state data of the air conditioner.

And S32, judging whether the current state data of the air conditioner is matched with the set function mode.

The remote controller stores a mapping table of key functions and/or appearance identification data corresponding to various functional modes of the air conditioner, so that the set functional mode data is matched in the mapping table based on the analyzed functional modes, if the functional modes in the mapping table are successfully matched, the next step can be carried out, and otherwise, the state data of the air conditioner is continuously received and analyzed.

And S33, switching the function and/or appearance identification of the remote controller according to the matched function mode.

And switching the functions and/or appearances of the active keys of the remote controller according to the key function and/or appearance identification matched in the mapping table currently.

And S34, controlling the remote controller which completes the mode switching to control the air conditioner to complete the operation.

After the function and/or appearance mark of the remote controller key is switched, the current key can be used for operating the air conditioner. As shown in fig. 4, when the mode is switched to the album mode, the page turning operation for full screen browsing can be performed on the album by pressing the previous frame and the next frame of the active key, the mode can be switched to the default view mode of the album by pressing the album button, and the full screen browsing can be exited by pressing the return key. As shown in fig. 5, when the multimedia mode is switched, the currently selected button is switched by pressing the up, down, left, and right keys, the current operation can be confirmed by pressing the determination button, the operation of the previous step is returned by pressing the return key, the volume of the current multimedia play can be increased by pressing the volume + key, and the volume of the current multimedia play can be decreased by pressing the volume-key. If the remote controller is currently in any one of the multimedia mode and the drawing set mode, the function and/or appearance identification of the remote controller can be switched to the default air conditioner control mode by pressing the fixed key of the remote controller, as shown in fig. 3, the temperature adjustment is completed by the temperature +, the temperature-key, the temperature control mode of the air conditioner is switched by utilizing the refrigeration and heating buttons, the setting of the wind speed and the wind direction can also be completed by the wind speed and the wind sweeping key, and the working mode of the air conditioner is adjusted by the mode key.

In summary, it is readily understood by those skilled in the art that the advantageous modes described above can be freely combined and superimposed without conflict. The above description is only an example of the present invention, and is not intended to limit the present invention, and it is obvious to those skilled in the art that various modifications and variations can be made in the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (16)

1. A method for switching and controlling a terminal key based on controlled equipment is characterized by comprising the following steps:

and switching the key functions and/or the corresponding appearance identifications of the control terminal based on the current state data of the controlled equipment.

2. The method according to claim 1, wherein switching the key functions and/or the corresponding appearance identifiers of the control terminal based on the current status data of the controlled device comprises:

establishing communication connection between the control terminal and the controlled equipment;

acquiring or receiving current state data of the controlled equipment in real time;

judging whether the current state of the controlled equipment changes or not;

and if the change occurs, switching the key function and/or the corresponding appearance identification of the control terminal based on the current state data of the controlled equipment.

3. The method according to claim 1, wherein switching the key function and/or the corresponding appearance identifier of the control terminal based on the current status data of the controlled device comprises:

awakening the control terminal;

enabling the control terminal to generate a state synchronization request instruction and sending the state synchronization request instruction to the controlled equipment;

the controlled equipment generates current state data after receiving the state synchronization request instruction and sends the current state data to the control terminal;

and the control terminal switches the key function and/or the corresponding appearance identifier of the control terminal based on the current state data sent by the controlled equipment.

4. The method of claim 3,

the method for waking up the control terminal comprises the following steps: key wake-up and/or inductive wake-up;

the key awakening comprises: waking up the control terminal by responding to the key being pressed;

the inductive wakeup includes: and detecting that the control terminal is taken up by a user to wake up the control terminal through a sensor arranged in the control terminal.

5. The method according to claim 4, characterized in that the keys of the control terminal comprise a fixed key and an active key, the fixed key has the function of switching the function mode of the control terminal and a fixed appearance mark, and the active key can switch different function and/or appearance marks according to the mode change of the controlled device; the key function and/or the corresponding appearance mark of the switching control terminal aim at the active key.

6. The method according to any one of claims 3-5, wherein the controlled device generates current state data after receiving the state synchronization request instruction, and comprises:

the controlled equipment acquires the current state of the controlled equipment and generates current state data after receiving the state synchronization request instruction;

and the controlled equipment sends the state data to the control terminal.

7. The method of claim 6, wherein the switching, by the control terminal, the key functions and/or the corresponding appearance identifications of the control terminal based on the current state data sent by the controlled device comprises:

the control terminal analyzes the function mode of the controlled equipment from the received state data;

matching corresponding key mode data based on the functional mode of the controlled equipment;

and switching the key function and/or the appearance identification according to the matched function mode data.

8. The method of claim 7, wherein matching corresponding key pattern data based on the functional pattern of the controlled device further comprises:

and storing an association mapping table of the function mode of the controlled equipment, the key function and the appearance identification of the control terminal at the control terminal.

9. The method according to claim 8, wherein the functional mode of the controlled device stored by the control terminal corresponds to a part or all of the functional modes of the controlled device.

10. The method according to claim 9, wherein the working modes of the controlled device stored by the control terminal include a default mode and an intelligent mode, the default mode is that the control terminal determines the working mode according to the set default working parameters, and the intelligent mode is that the control terminal automatically matches the working mode of the controlled device.

11. The method of claim 10, wherein the default mode and the smart mode operate simultaneously.

12. The method according to claim 11, wherein the function modes of the controlled device include a plurality of function modes, and when the controlled device simultaneously starts to operate any one or more function modes in the default mode and the intelligent mode, the function mode in the intelligent mode is preferentially responded.

13. The method according to claim 12, wherein the function of the fixed key is to manually switch the function mode of the control terminal, and when the control terminal is currently in the intelligent mode, the intelligent mode is switched to the default mode through the fixed key; when the control terminal is in the default mode, the default mode is switched to the intelligent mode through the fixed key; meanwhile, the switching priority of the default mode and the multiple functional modes is set by user definition according to user habits.

14. A control terminal having a switch key function comprising one or more processors and a non-transitory computer readable storage medium having program instructions stored thereon, the one or more processors being configured to implement the method of any one of claims 1-13 when the program instructions are executed by the one or more processors.

15. A non-transitory computer-readable storage medium having stored thereon program instructions which, when executed by one or more processors, are operable to implement the method of any one of claims 1-13.

16. An air conditioning system for switching a key function, comprising an air conditioner and the control terminal of claim 14, wherein the air conditioner is used as the controlled device, and the control terminal is a remote controller;

the air conditioner comprises a first main control module unit and a first communication module unit; the first main control module unit; the remote controller comprises a second main control module unit, a second communication module unit, a second storage module unit and a second analysis processing module unit;

the second storage module unit is used for storing a mapping relation table which is provided with a plurality of functional modes of the air conditioner, corresponds to the key functions and the appearance marks; the second analysis processing module unit is used for analyzing and processing the current state data of the air conditioner and performing state mode matching with the mapping relation table stored in the second storage unit so that the remote controller can switch key functions and/or corresponding appearance marks according to different current states of the air conditioner;

the air conditioner and the remote controller are in communication connection through the first communication module unit and the second communication module unit;

the remote controller sends a state synchronization instruction to the air conditioner through the second main control module unit;

the air conditioner receives a state synchronization instruction of the remote controller through the first main control unit and generates current state data;

the remote controller receives or acquires the current state data of the air conditioner through the second analysis processing module unit, the second storage unit and the second main control module unit, and controls the key function and/or the corresponding appearance identification of the remote controller based on the current state data of the air conditioner.

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