CN112328199A - Screen control method and device, intelligent air conditioner and computer readable storage medium - Google Patents
Screen control method and device, intelligent air conditioner and computer readable storage medium Download PDFInfo
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Abstract
The invention discloses a screen control method, which is used for an intelligent air conditioner, wherein the intelligent air conditioner comprises a screen; the screen control method includes the steps of: when the screen is in a screen-off state, receiving a trigger signal; and lightening the screen according to the trigger signal so as to enable the screen to reach preset illumination brightness. The invention also discloses a screen control device, an intelligent air conditioner and a storage medium. Therefore, the screen function of the intelligent air conditioner has an illumination effect, and the screen function of the intelligent air conditioner is not single.
Description
Technical Field
The invention relates to the field of equipment control, in particular to a screen control method and device, an intelligent air conditioner and a computer readable storage medium.
Background
With the progress of science and technology, intelligent home equipment is provided with a screen, the screen of an intelligent air conditioner is used for displaying information such as indoor temperature, refrigerating or heating temperature and humidity, and text instruction information or corresponding control instructions can be input or selected through the screen.
However, the screen control method of the existing intelligent air conditioner is single, so that the screen function of the air conditioner is single.
Disclosure of Invention
The invention mainly aims to provide a screen control method and device, an intelligent air conditioner and a computer readable storage medium, and aims to solve the technical problem that the screen function of the air conditioner is single due to the fact that the existing screen control method of the intelligent air conditioner is single in the prior art.
In order to achieve the above object, the present invention provides a screen control method for an intelligent air conditioner, wherein the intelligent air conditioner comprises a screen, and the screen control method comprises the following steps:
receiving a trigger signal when the screen is in a screen-off state;
and lightening the screen according to the trigger signal so as to enable the screen to reach preset illumination brightness.
Optionally, the step of lighting the screen according to the trigger signal to make the screen reach a preset illumination brightness includes:
obtaining a selected brightness adjustment strategy based on the trigger signal;
obtaining a selected brightness value based on the selected brightness adjustment strategy;
and based on the selected brightness value, lightening the screen to enable the screen to reach a preset illumination brightness corresponding to the selected brightness value.
Optionally, the trigger signal is a voice control instruction; the step of obtaining the selected brightness adjustment strategy based on the trigger signal comprises:
obtaining a text control instruction based on the voice control instruction;
recognizing the text control instruction by using an automatic word segmentation algorithm to obtain an output control instruction;
and when the output control instruction meets a preset condition, screening a selected brightness adjusting strategy corresponding to the output control instruction from preset brightness adjusting strategies.
Optionally, the method further includes:
when the output control instruction does not meet the preset condition, obtaining a preset brightness value;
and based on the preset brightness value, lightening the screen to enable the screen to reach the illumination brightness corresponding to the preset brightness value.
Optionally, the trigger signal is an indoor environment sound signal or an action signal; the step of obtaining the selected brightness adjustment strategy based on the trigger signal comprises:
if the trigger signal is an indoor environment sound signal, screening selected sound signals matched with the indoor environment sound signal in a preset sound signal set, and screening selected brightness adjusting strategies corresponding to the selected sound signals in the preset brightness adjusting strategies; or the like, or, alternatively,
and if the trigger signal is an action signal, screening a selected action signal matched with the action signal in a preset action signal set, and screening a selected brightness adjusting strategy corresponding to the selected action signal in the preset brightness adjusting strategy.
Optionally, when the screen is in the screen-turning state, the step of receiving the trigger signal includes:
when the screen is in the screen-off state, judging whether all lighting equipment in the indoor environment is in a non-working state;
generating a trigger signal when all the lighting devices are in a non-working state.
Optionally, the step of obtaining the selected brightness adjustment strategy based on the trigger signal includes:
acquiring brightness information of an indoor environment based on the trigger signal;
and screening a selected brightness adjusting strategy corresponding to the brightness information in the preset brightness adjusting strategies.
In addition, in order to achieve the above object, the present invention further provides a screen control device for an intelligent air conditioner including a screen, the device including:
the receiving module is used for receiving a trigger signal when the screen is in a screen turning state;
and the lighting module is used for lighting the screen according to the trigger signal so as to enable the screen to reach the preset illumination brightness.
In addition, in order to achieve the above object, the present invention further provides an intelligent refrigerator, including: a screen, a memory, a processor and a screen control program stored on the memory and running on the processor, the screen control program when executed by the processor implementing the steps of the screen control method as claimed in any one of the preceding claims.
Further, to achieve the above object, the present invention also proposes a computer-readable storage medium having stored thereon a screen control program which, when executed by a processor, implements the steps of the screen control method as recited in any one of the above.
The technical scheme of the invention provides a screen control method, which is used for an intelligent air conditioner, wherein the intelligent air conditioner comprises a screen; receiving a trigger signal when the screen is in a screen-off state; and lightening the screen according to the trigger signal so as to enable the screen to reach preset illumination brightness. Because, when the screen is in the screen state of breathing out, light the screen according to trigger signal for the screen can regard as the light source, provides light for the user, so intelligent air conditioner's screen function has the illumination effect, and intelligent air conditioner's screen function is not single.
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In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.
FIG. 1 is a schematic diagram of an intelligent refrigerator in a hardware operating environment according to an embodiment of the present invention;
FIG. 2 is a flowchart illustrating a screen control method according to a first embodiment of the present invention;
FIG. 3 is a flowchart illustrating a step S12 of the screen control method according to the second embodiment of the present invention;
FIG. 4 is a flowchart illustrating a step S121 of a third embodiment of a screen control method according to the present invention;
FIG. 5 is a flowchart illustrating step S11 of the screen control method according to the fourth embodiment of the present invention;
FIG. 6 is a flowchart illustrating step S121 of a fifth embodiment of a screen control method according to the present invention;
fig. 7 is a block diagram of a first embodiment of a screen control device according to the present invention.
The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, fig. 1 is a schematic structural diagram of an intelligent air conditioner in a hardware operating environment according to an embodiment of the present invention.
Generally, a smart air conditioner includes: at least one processor 301, a memory 302 and a screen control program stored on said memory and executable on said processor, said screen control program being configured to implement the steps of the screen control method as described previously.
The processor 301 may include one or more processing cores, such as a 4-core processor, an 8-core processor, and so on. The processor 301 may be implemented in at least one hardware form of a DSP (Digital Signal Processing), an FPGA (Field-Programmable Gate Array), and a PLA (Programmable Logic Array). The processor 301 may also include a main processor and a coprocessor, where the main processor is a processor for processing data in an awake state, and is also called a Central Processing Unit (CPU); a coprocessor is a low power processor for processing data in a standby state. In some embodiments, the processor 301 may be integrated with a GPU (Graphics Processing Unit), which is responsible for rendering and drawing the content required to be displayed on the display screen. The processor 301 may further include an AI (Artificial Intelligence) processor for processing operations related to the screen control method so that the screen control method model can be independently trained and learned, improving efficiency and accuracy.
In some embodiments, the terminal may further include: a communication interface 303 and at least one peripheral device. The processor 301, the memory 302 and the communication interface 303 may be connected by a bus or signal lines. Various peripheral devices may be connected to communication interface 303 via a bus, signal line, or circuit board. Specifically, the peripheral device includes: at least one of radio frequency circuitry 304, a display screen 305, and a power source 306.
The communication interface 303 may be used to connect at least one peripheral device related to I/O (Input/Output) to the processor 301 and the memory 302. In some embodiments, processor 301, memory 302, and communication interface 303 are integrated on the same chip or circuit board; in some other embodiments, any one or two of the processor 301, the memory 302 and the communication interface 303 may be implemented on a single chip or circuit board, which is not limited in this embodiment.
The Radio Frequency circuit 304 is used for receiving and transmitting RF (Radio Frequency) signals, also called electromagnetic signals. The radio frequency circuitry 304 communicates with communication networks and other communication devices via electromagnetic signals. The rf circuit 304 converts an electrical signal into an electromagnetic signal to transmit, or converts a received electromagnetic signal into an electrical signal. Optionally, the radio frequency circuit 304 comprises: an antenna system, an RF transceiver, one or more amplifiers, a tuner, an oscillator, a digital signal processor, a codec chipset, a subscriber identity module card, and so forth. The radio frequency circuitry 304 may communicate with other terminals via at least one wireless communication protocol. The wireless communication protocols include, but are not limited to: metropolitan area networks, various generation mobile communication networks (2G, 3G, 4G, and 5G), Wireless local area networks, and/or WiFi (Wireless Fidelity) networks. In some embodiments, the rf circuit 304 may further include NFC (Near Field Communication) related circuits, which are not limited in this application.
The display screen 305 is used to display a UI (User Interface). The UI may include graphics, text, icons, video, and any combination thereof. When the display screen 305 is a touch display screen, the display screen 305 also has the ability to capture touch signals on or over the surface of the display screen 305. The touch signal may be input to the processor 301 as a control signal for processing. At this point, the display screen 305 may also be used to provide virtual buttons and/or a virtual keyboard, also referred to as soft buttons and/or a soft keyboard. In some embodiments, the display screen 305 may be one, the front panel of the electronic device; in other embodiments, the display screens 305 may be at least two, respectively disposed on different surfaces of the electronic device or in a folded design; in still other embodiments, the display screen 305 may be a flexible display screen disposed on a curved surface or a folded surface of the electronic device. Even further, the display screen 305 may be arranged in a non-rectangular irregular figure, i.e. a shaped screen. The Display screen 305 may be made of LCD (liquid crystal Display), OLED (Organic Light-Emitting Diode), and the like.
The power supply 306 is used to power various components in the electronic device. The power source 306 may be alternating current, direct current, disposable or rechargeable. When the power source 306 includes a rechargeable battery, the rechargeable battery may support wired or wireless charging. The rechargeable battery may also be used to support fast charge technology. Those skilled in the art will appreciate that the configuration shown in fig. 1 does not constitute a limitation of the screen control device and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.
Furthermore, an embodiment of the present invention further provides a computer-readable storage medium, where a screen control program is stored on the computer-readable storage medium, and the screen control program, when executed by a processor, implements the steps of the screen control method as described above. Therefore, a detailed description thereof will be omitted. In addition, the beneficial effects of the same method are not described in detail. For technical details not disclosed in embodiments of the computer-readable storage medium referred to in the present application, reference is made to the description of embodiments of the method of the present application. Determining as an example, the program instructions may be deployed to be executed on one intelligent air conditioner, or on multiple intelligent air conditioners located at one site, or distributed across multiple sites and interconnected by a communication network.
It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The computer-readable storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.
Based on the hardware structure, the embodiment of the screen control method is provided.
Referring to fig. 2, fig. 2 is a flowchart illustrating a first embodiment of a screen control method according to the present invention, for an intelligent air conditioner including a screen, the method including the steps of:
step S11: and receiving a trigger signal when the screen is in a screen-off state.
It should be noted that when the intelligent air conditioner is in the screen-off state, the intelligent air conditioner may receive the trigger signal or receive the control instruction, and is not in the power-off state in which the trigger signal or the control instruction cannot be received.
In a specific application, the trigger signal may be a voice control command, an indoor environment sound signal, an action signal, or a trigger signal obtained when all lighting devices in an indoor environment are in a non-working state, and the invention is not limited.
Step S12: and lightening the screen according to the trigger signal so as to enable the screen to reach preset illumination brightness.
It should be noted that the preset illumination brightness may refer to a brightness value exceeding a preset threshold, and at this time, the screen brightness value is high enough to be used as a light source to provide light for the user; the preset threshold may be 30%, etc., and the present invention is not particularly limited, and the user may set the threshold according to his own needs.
The technical scheme of the embodiment provides a screen control method, which is used for an intelligent air conditioner, wherein the intelligent air conditioner comprises a screen; receiving a trigger signal when the screen is in a screen-off state; and lightening the screen according to the trigger signal so as to enable the screen to reach preset illumination brightness. Because, when the screen is in the screen state of breathing out, light the screen according to trigger signal for the screen can regard as the light source, provides light for the user, so intelligent air conditioner's screen function has the illumination effect, and intelligent air conditioner's screen function is not single.
Referring to fig. 3, fig. 3 is a flowchart illustrating the step S12 of the screen control method according to the second embodiment of the present invention; the method is used for the intelligent air conditioner, and the step S12 comprises the following steps:
step S121: obtaining a selected brightness adjustment strategy based on the trigger signal;
step S122: obtaining a selected brightness value based on the selected brightness adjustment strategy;
step S123: and based on the selected brightness value, lightening the screen to enable the screen to reach a preset illumination brightness corresponding to the selected brightness value.
It should be noted that different trigger signals correspond to different brightness adjustment strategies. Different brightness adjustment strategies correspond to different brightness values, corresponding selected brightness adjustment strategies are obtained according to the trigger signals, corresponding selected brightness values are obtained according to the selected brightness adjustment strategies, and therefore the intelligent refrigerator can control the screen in the screen-off state to be at the brightness corresponding to the selected brightness values.
For example, the selected brightness adjustment strategy corresponding to the trigger signal is an a brightness adjustment strategy, a brightness value included in the a brightness adjustment strategy is 80% (i.e., a ratio of a current brightness value to a maximum brightness value of the screen), the selected brightness value is 80%, and the intelligent refrigerator controls the screen in the screen-off state to 80% of brightness.
Referring to fig. 4, fig. 4 is a flowchart illustrating a step S121 of the screen control method according to the third embodiment of the present invention; the method is used for the intelligent air conditioner, and the trigger signal is a voice control instruction; step S121 includes:
step S1211: obtaining a text control instruction based on the voice control instruction;
step S1212: recognizing the text control instruction by using an automatic word segmentation algorithm to obtain an output control instruction;
step S1213: and when the output control instruction meets a preset condition, screening a selected brightness adjusting strategy corresponding to the output control instruction from preset brightness adjusting strategies.
It should be noted that the voice control instruction may be a voice control instruction directly sent to the intelligent refrigerator by the user, and may be sent through a voice input module of the intelligent refrigerator. When the voice control instruction is obtained, the voice needs to be translated into characters, the text control instruction is obtained, then the text control instruction is identified by using an automatic word segmentation algorithm, the output control instruction is obtained, and the output control instruction is obtained through processing of the automatic word segmentation algorithm. The automatic word segmentation algorithm may be a maximum matching method, a reverse maximum matching method, a word-by-word traversal matching method, a forward optimal matching method, a reverse optimal matching method, and the like, and the present invention is not particularly limited.
In addition, the preset condition means that the output control instruction belongs to the brightness adjusting instruction, when the output control instruction meets the preset condition, the output control instruction belongs to the brightness adjusting instruction, and only the selected brightness adjusting strategy corresponding to the output control instruction needs to be screened out from the preset brightness adjusting strategies.
It can be understood that the mapping relationship between the trigger signal and the brightness adjustment policy described above is a mapping relationship between an output control instruction corresponding to the trigger signal (i.e., a voice control instruction in this embodiment) and the brightness adjustment policy in this embodiment, that is, the mapping relationship is only a mapping relationship between the output control instruction and the brightness adjustment policy, and the trigger signal needs to be converted into the output control instruction, so that the selected brightness adjustment policy can be obtained by using the mapping relationship between the output control instruction and the brightness adjustment policy.
When the output control instruction does not meet the preset condition, obtaining a preset brightness value; and based on the preset brightness value, lightening the screen to enable the screen to reach the illumination brightness corresponding to the preset brightness value. When the output control instruction does not meet the preset condition, that is, the output control instruction does not belong to a brightness adjustment instruction, and may include a temperature adjustment instruction for the smart air conditioner and the like, or may include a voice control instruction for other smart home devices, for example, a smart curtain is opened and the like, the user sends the voice control instruction that does not meet the preset condition, which indicates that the user may need a light source, so that the corresponding preset brightness value may be obtained according to the voice control instruction that does not meet the preset condition. The preset brightness value may be set by the user according to the requirement of the user, for example, the preset brightness value may be 80%, and the present invention is not limited thereto.
In a specific application, the different voice control instructions meeting the preset condition may include turning on a screen and turning off the screen, where the brightness adjustment policy corresponding to the turning on of the screen is that the screen brightness is adjusted to 100%, that is, the selected brightness value is 100%, and the brightness adjustment policy corresponding to the turning off of the screen is that the screen brightness is adjusted to 0, that is, the selected brightness value is 0.
It can be understood that, when the screen is in the lighting state, the voice control instruction meeting the preset condition sent by the user can be continuously received, at this time, the voice control instruction may further include increasing the brightness or decreasing the brightness, a selected brightness adjustment policy corresponding to the voice control instruction is screened from the preset brightness adjustment policies, and the selected brightness value is obtained according to the selected brightness adjustment policy and the current brightness value. The brightness adjustment strategy corresponding to increasing the brightness is to increase the brightness value by 10%, the brightness adjustment strategy corresponding to decreasing the brightness is to decrease the brightness value by 10%, and the adjustment range may be other values, such as 5% or 8%. For example, when a current brightness value is 50%, when a voice control instruction that a trigger signal is to increase brightness is received, a corresponding output control instruction is obtained according to the voice control instruction, the corresponding output control instruction is to increase brightness, a selected brightness value is obtained according to a preset brightness adjustment strategy (the brightness value is increased by 10%), and a screen brightness value is adjusted to 60% by the intelligent refrigerator.
In addition, the voice control instructions which do not meet the preset conditions are more, a user can set a control instruction set according to the requirement of the user, when the voice control instructions do not meet the preset conditions, the control instructions matched with the voice control instructions are searched in the control instruction set, if the voice control instructions do not meet the preset conditions, the voice control instructions sent by the user are indicated, and the screen is lightened based on the preset brightness value so that the screen reaches the illumination brightness corresponding to the preset brightness value; if not, the user may simply speak or talk by himself without obtaining the corresponding preset brightness value.
Further, the trigger signal is an indoor environment sound signal or an action signal; the step of obtaining the selected brightness adjustment strategy based on the trigger signal comprises:
if the trigger signal is an indoor environment sound signal, screening selected sound signals matched with the indoor environment sound signal in a preset sound signal set, and screening selected brightness adjusting strategies corresponding to the selected sound signals in the preset brightness adjusting strategies; or the like, or, alternatively,
and if the trigger signal is an action signal, screening a selected action signal matched with the action signal in a preset action signal set, and screening a selected brightness adjusting strategy corresponding to the selected action signal in the preset brightness adjusting strategy.
It should be noted that the indoor environment sound signal may be an indoor environment sound signal collected by a sound collection module of the intelligent refrigerator, and the behavior signal may be a user's motion signal collected by a motion capture module of the intelligent refrigerator. Different indoor environment sound signals correspond to different brightness adjustment strategies, different behavior signals correspond to different brightness adjustment strategies, and corresponding selected brightness adjustment strategies need to be screened out from preset brightness adjustment strategies.
In a specific application, the indoor environment sound signal may include a dialogue sound signal, a step sound signal or an alarm sound signal of the user, where the alarm sound signal may be an entrance guard alarm signal or a fire alarm signal, and the brightness adjustment policy corresponding to the dialogue sound signal may be to adjust the brightness value to 80%, that is, the selected brightness value is 80%; the brightness adjustment strategy corresponding to the step sound signal may be to adjust the brightness value to 100%, that is, to select the brightness value as 100%; the brightness adjustment strategy for the alarm sound signal may be to adjust the brightness value to 100%, i.e. to select the brightness value as 100%.
The behavior signal may include a gesture that the user is moving, lights up the screen, lights out the screen, or a gesture signal to another device, where the user may set different gestures for lighting up the screen and turning out the screen according to the user's own needs, which is not limited in the present invention. The brightness adjustment strategy corresponding to the movement of the user may be to adjust the brightness value to 100%; the brightness adjustment strategy corresponding to the gesture of lighting the screen may be to adjust the brightness value to 100%; the brightness adjustment strategy corresponding to the screen-off gesture may be to adjust the brightness value to 0, and the brightness adjustment strategy corresponding to the gesture signal of the other device may be to adjust the brightness value to 80%.
It can be understood that, when the trigger signal is a voice control instruction for other non-lighting devices, the voice control instruction may also correspond to the brightness adjustment policy in the preset brightness adjustment policy, and the user may selectively set the brightness adjustment policy according to the user's needs. For example, the voice control instruction is to open a curtain, and after the corresponding output control instruction is obtained according to the voice control instruction, the corresponding selected brightness adjustment strategy is screened from the preset brightness adjustment strategies based on the output control instruction: the screen brightness value is 70%, namely, the selected brightness value is 70%, and the intelligent refrigerator adjusts the screen brightness to 70% according to the selected brightness value.
Referring to fig. 5, fig. 5 is a flowchart illustrating a step S11 of a fourth embodiment of the screen control method for an intelligent air conditioner, where the step S11 includes:
step S111: when the screen is in a screen-off state, judging whether all lighting equipment in the indoor environment are in a non-working state;
step S112: generating a trigger signal when all the lighting devices are in a non-working state.
It can be understood that the intelligent refrigerator may be in communication connection with all lighting devices in an indoor environment to obtain operating states of all the lighting devices, to determine whether all the lighting devices are in a non-operating state according to the operating states, that is, none of the lighting devices emit light, and when all the lighting devices are in the non-operating state, a trigger signal is generated, so that the intelligent refrigerator screens a selected brightness adjustment strategy corresponding to the trigger signal in preset brightness adjustment strategies according to the trigger signal.
Referring to fig. 6, fig. 6 is a flowchart illustrating a step S121 of a fifth embodiment of the screen control method according to the present invention, where the method is used for an intelligent air conditioner, and the step S121 includes:
step S1214: acquiring brightness information of an indoor environment based on the trigger signal;
step S1215: and screening a selected brightness adjusting strategy corresponding to the brightness information in the preset brightness adjusting strategies.
It should be noted that the brightness information is a ratio of an indoor current brightness value to an indoor maximum brightness value, and when the indoor brightness information is different, corresponding brightness adjustment strategies are different, for example, the brightness information is that the indoor light brightness is greater than 60%, and the brightness adjustment strategy is to adjust the screen brightness to 30%; the brightness information is that the brightness of indoor light is between 60% and 40%, and the brightness adjusting strategy is to adjust the brightness of the screen to 60%; the brightness information is that the brightness of indoor light is lower than 40%, and the brightness adjusting strategy is to adjust the brightness of the screen to 90%.
In a specific application, a corresponding relationship between time and luminance information may be further added, and when the time and the luminance information satisfy the corresponding relationship, a corresponding luminance adjustment policy is obtained, for example: the brightness information is that the brightness of indoor light is more than 60%, the time is 7:00-16:00, and the brightness adjusting strategy is to adjust the brightness of the screen to 30%; the brightness information is that the brightness of indoor light is between 60% and 40%, the time is 16:00-20:00, and the brightness adjusting strategy is to adjust the brightness of the screen to 60%; the brightness information is that the brightness of indoor light is lower than 40%, the time is 20:00-7:00, and the brightness adjusting strategy is to adjust the brightness of the screen to 90%. The corresponding relation between the time and the brightness information corresponding to different seasons can be distinguished to a certain extent, and a user can set the corresponding relation according to the requirement of the user, and the method is not limited in detail.
Referring to fig. 7, fig. 7 is a block diagram illustrating a first embodiment of a screen control apparatus for an intelligent air conditioner including a screen according to the present invention, the apparatus including:
the receiving module 10 is configured to receive a trigger signal when the screen is in a screen turning state;
and the lighting module 20 is configured to light the screen according to the trigger signal, so that the screen reaches a preset illumination brightness.
The above description is only an alternative embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.
Claims (10)
1. A screen control method is used for an intelligent air conditioner, the intelligent air conditioner comprises a screen, and the screen control method comprises the following steps:
when the screen is in a screen-off state, receiving a trigger signal;
and lightening the screen according to the trigger signal so as to enable the screen to reach preset illumination brightness.
2. The screen control method of claim 1, wherein the step of illuminating the screen to achieve a preset illumination brightness according to the trigger signal comprises:
obtaining a selected brightness adjustment strategy based on the trigger signal;
obtaining a selected brightness value based on the selected brightness adjustment strategy;
and based on the selected brightness value, lightening the screen to enable the screen to reach a preset illumination brightness corresponding to the selected brightness value.
3. The screen control method of claim 2, wherein the trigger signal is a voice control instruction; the step of obtaining the selected brightness adjustment strategy based on the trigger signal comprises:
obtaining a text control instruction based on the voice control instruction;
recognizing the text control instruction by using an automatic word segmentation algorithm to obtain an output control instruction;
and when the output control instruction meets a preset condition, screening a selected brightness adjusting strategy corresponding to the output control instruction from preset brightness adjusting strategies.
4. The screen control method of claim 3, wherein the method further comprises:
when the output control instruction does not meet the preset condition, obtaining a preset brightness value;
and based on the preset brightness value, lightening the screen to enable the screen to reach the illumination brightness corresponding to the preset brightness value.
5. The screen control method of claim 2, wherein the trigger signal is an indoor ambient sound signal or an action signal; the step of obtaining the selected brightness adjustment strategy based on the trigger signal comprises:
if the trigger signal is an indoor environment sound signal, screening selected sound signals matched with the indoor environment sound signal in a preset sound signal set, and screening selected brightness adjusting strategies corresponding to the selected sound signals in the preset brightness adjusting strategies; or the like, or, alternatively,
and if the trigger signal is an action signal, screening a selected action signal matched with the action signal in a preset action signal set, and screening a selected brightness adjusting strategy corresponding to the selected action signal in the preset brightness adjusting strategy.
6. The screen control method of claim 2, wherein the step of receiving a trigger signal in the screen-saver state comprises:
when the screen is in the screen-off state, judging whether all lighting equipment in the indoor environment is in a non-working state;
generating a trigger signal when all the lighting devices are in a non-working state.
7. The screen control method of claim 6, wherein the step of obtaining the selected brightness adjustment strategy based on the trigger signal comprises:
acquiring brightness information of an indoor environment based on the trigger signal;
and screening a selected brightness adjusting strategy corresponding to the brightness information in the preset brightness adjusting strategies.
8. A screen control device, for an intelligent air conditioner including a screen, the device comprising:
the receiving module is used for receiving a trigger signal when the screen is in a screen turning state;
and the lighting module is used for lighting the screen according to the trigger signal so as to enable the screen to reach the preset illumination brightness.
9. The utility model provides an intelligence air conditioner which characterized in that, intelligence air conditioner includes: a screen, a memory, a processor and a screen control program stored on the memory and running on the processor, the screen control program when executed by the processor implementing the steps of the screen control method of any one of claims 1 to 7.
10. A computer-readable storage medium, having stored thereon a screen control program which, when executed by a processor, implements the steps of the screen control method of any one of claims 1 to 7.
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