CN113203174A - Air conditioner display brightness control method, air conditioner and computer readable storage medium - Google Patents

Abstract

The invention provides an air conditioner display brightness control method, an air conditioner and a computer readable storage medium, wherein the control method comprises the following steps: s1, judging whether the air conditioner is started or not; if yes, go to step S2; if not, controlling the air conditioner display structure to be closed; s2, judging whether the room lamp is turned off; if yes, go to step S3; if not, adjusting the brightness of the air conditioner display structure to a third brightness value; s3, adjusting the brightness of the air conditioner display structure according to the current time; according to the air conditioner display brightness control method, the air conditioner and the computer readable storage medium, when the air conditioner and the room lamp are both started, the brightness of the air conditioner display structure is adjusted to be a specific preset brightness value, so that the air conditioner display structure can be displayed more clearly in the lighting environment, and the brightness of the air conditioner display structure can be automatically adjusted through the current time under the states that the air conditioner is started and the room lamp is turned off, so that the brightness of the air conditioner indoor unit display structure can be automatically adjusted.

Description

Air conditioner display brightness control method, air conditioner and computer readable storage medium

Technical Field

The invention relates to the technical field of air conditioners, in particular to an air conditioner display brightness control method, an air conditioner and a computer readable storage medium.

Background

The air conditioner is indispensable electrical equipment in people's daily life, has diversified structural style. With the continuous improvement of the industrial design level and the application of new processes, new materials, new shapes and new technologies to air conditioners, various air conditioners are developed to meet the corresponding requirements of users on the air conditioners.

For example: the display structure of the indoor unit of the traditional air conditioner, such as a display screen, a display lamp and the like, does not have the automatic brightness adjusting function, so that the display structure of the indoor unit of the air conditioner always keeps a bright state when a user sleeps at night, and the sleeping quality of the user is easily influenced.

Therefore, in the prior art, through technical improvement, a technical scheme that a user actively closes a display structure through a remote controller is provided, but the scheme undoubtedly does not achieve the purpose of automatic brightness adjustment, and still requires the user to operate by himself, so that the operation of the user is easy to be complicated; in addition, the prior art also provides a scheme that the photosensitive sensor is added in the air conditioner to adjust the brightness of the display structure according to the indoor light intensity, and the scheme can achieve the purpose of automatically adjusting the brightness, but the photosensitive sensor is added in the air conditioner, so that the electronic control structure and the air conditioner hardware structure need to be redesigned and changed in consideration of the factors of electronic control implementation, structure assembly and the like, the number of air conditioner components is increased, the air conditioner cost is increased, and the simplification of air conditioner production, processing and assembly is not facilitated.

Disclosure of Invention

In view of the above, the present invention is directed to an air conditioner display brightness control method, an air conditioner, and a computer readable storage medium, which utilize the current internet of things technology to achieve the purpose of automatically adjusting the brightness of the display structure of the indoor unit of the air conditioner.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

an air conditioner display brightness control method comprises the following steps: s1, judging whether the air conditioner is started or not; if yes, go to step S2; if not, controlling the air conditioner display structure to be closed; s2, judging whether the room lamp is turned off; if yes, go to step S3; if not, adjusting the brightness of the air conditioner display structure to a third brightness value; s3, adjusting the brightness of the air conditioner display structure according to the current time, adjusting the brightness of the air conditioner display structure to a specific preset brightness value when the air conditioner and the room lamp are both turned on, enabling the air conditioner display structure to be displayed more clearly in the lighting environment, and automatically adjusting the brightness of the air conditioner display structure according to the current time when the air conditioner is turned on and the room lamp is turned off, so as to achieve automatic brightness adjustment of the air conditioner indoor unit display structure.

Further, step S3 includes: s31, judging whether the user adjusts the air conditioner operation parameters; if yes, go to step S32; if not, go to step S33; s32, the air conditioner executes the upper limit brightness operation according to the current time; s33, the air conditioner executes the lower limit brightness operation according to the current time, and the lower limit brightness operation and the upper limit brightness operation of the display brightness are set, so that on one hand, the user can be ensured to fully see the display information when adjusting the air conditioner operation parameters, and on the other hand, when the user does not adjust the air conditioner operation parameters, the user can feel a more comfortable visual environment, and the use comfort of the user is improved.

Further, step S31 includes: s311, judging whether the user adjusts the air conditioner operation parameters or not within a preset time length; if yes, go to step S32; if not, go to step S312; s312, controlling the brightness of the air conditioner display structure to reduce a brightness gear; s313, judging whether the current brightness gear meets the lower-limit brightness operation corresponding to the current time; if yes, go to step S33; if not, returning to the step S311; preferably, the preset time period is 5-20 min. Therefore, assuming that the user does not adjust the air conditioner operation parameters all the time, the air conditioner display structure can adjust one brightness gear down after every preset time interval until the lower-limit brightness operation is met; meanwhile, in the process, if the user adjusts the air conditioner operation parameters, the air conditioner display structure can be adjusted to the upper limit brightness at any time, and the execution of automatic brightness adjustment of the air conditioner indoor unit display structure is facilitated.

Further, the upper limit brightness operation includes: if the current time is between 6:00 and 8:00, adjusting the brightness of the air conditioner display structure to be a second brightness value; if the current time is between 8:00 and 21:00, adjusting the brightness of the air conditioner display structure to be a third brightness value; if the current time is between 21:00 and 23:00, adjusting the brightness of the air conditioner display structure to be a second brightness value; if the current time is between 23:00 and 6:00 of the next day, the brightness of the air conditioner display structure is adjusted to be the first brightness value, and the air conditioner display structure is adjusted to be different brightness values according to different time intervals, so that when a user adjusts air conditioner parameters under the states of air conditioner operation and room lamp turning-off, the air conditioner display structure can automatically adjust the brightness of the air conditioner display structure through the current time, and the automatic brightness adjustment of the air conditioner indoor unit display structure is realized.

Further, the lower limit brightness operation includes: if the current time is between 6:00 and 8:00, adjusting the brightness of the air conditioner display structure to be a first brightness value; if the current time is between 8:00 and 19:00, adjusting the brightness of the air conditioner display structure to be a second brightness value; if the current time is 19: 00-21: 00, adjusting the brightness of the air conditioner display structure to be a first brightness value; if the current time is between 21:00 and 6:00 of the next day, the air conditioner display structure is closed; when the user does not adjust the operation parameters of the air conditioner, the air conditioner displays the display information at a second brightness value in the daytime period from 8 am to 7 pm, so that the user can view the display information at any time; when a user has a rest at night, the air conditioner display structure is automatically closed, so that the interference of the display brightness of the air conditioner to the sleep of the user can be avoided, and the sleep quality of the user can be improved; when the user wakes up in the morning and the user is ready to fall asleep in the evening, the air conditioner displays the first brightness value, so that a more comfortable visual environment is provided, and the user is more relaxed.

Furthermore, the first brightness value is smaller than the second brightness value and smaller than the third brightness value, and three different brightness gears are arranged, so that the requirements of air conditioner display brightness adjustment in different environments are met.

An air conditioner includes a computer readable storage medium storing a computer program and a processor, the computer program being read and executed by the processor to implement the air conditioner display brightness control method.

A computer-readable storage medium storing a computer program that, when read and executed by a processor, implements the air conditioner display brightness control method.

An air conditioner display brightness control device, comprising: the room lamp state acquisition module is used for acquiring the running state of the room lamp; the user adjusting instruction acquisition module is used for acquiring an adjusting instruction of a user; the time acquisition module is used for acquiring current time information; and the brightness adjusting module is used for adjusting the brightness of the air-conditioning display structure according to at least one of the operating state of the room lamp, the adjusting instruction of the user and the current time information.

Compared with the prior art, the air conditioner display brightness control method, the air conditioner and the computer readable storage medium have the following advantages:

according to the air conditioner display brightness control method, the air conditioner and the computer readable storage medium, when the air conditioner and the room lamp are both started, the brightness of the air conditioner display structure is adjusted to be a specific preset brightness value, so that the air conditioner display structure can be displayed more clearly in the lighting environment, and the brightness of the air conditioner display structure can be automatically adjusted through the current time under the states that the air conditioner is started and the room lamp is turned off, so that the brightness of the air conditioner indoor unit display structure can be automatically adjusted.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a flowchart of a method for controlling display brightness of an air conditioner based on room lights according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of components of the internet of things related to a room lamp-based air conditioner display brightness control method according to an embodiment of the present invention.

Detailed Description

The inventive concepts of the present disclosure will be described hereinafter using terms commonly employed by those skilled in the art to convey the substance of their work to others skilled in the art. These inventive concepts may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. Meanwhile, as a general technical knowledge in the art, the "luminance value" described in the present application refers to luminance in a conventional concept, and is generally defined as luminance in units of light sources, i.e., luminous intensity per unit of projected area. In addition, the time is described in the present application by a conventional 24-hour timekeeping method, for example: 6:00 is 6 o' clock in the morning, 21:00 is 9 o' clock at night. Meanwhile, the time in the application is the actual time of the local or the actual time of the local time zone, so as to avoid the interference of time differences in different areas.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

For the brightness automatic adjustment function of the display structure of the indoor unit of the air conditioner, although various technical means exist in the prior art for realizing the brightness automatic adjustment function, the brightness of the display structure is adjusted according to the indoor light intensity by adding a photosensitive sensor, and the factors of electric control implementation, structure assembly and the like are considered, so that the electric control structure and the air conditioner hardware structure are required to be redesigned and changed, the number of air conditioner components is increased, the air conditioner cost is increased, and the production, processing and assembly of the air conditioner are not facilitated to be simplified.

However, with the rapid development of the internet of things technology, the ecology of the internet of things household appliances in the family of the current user is gradually established and perfected, and the information of each household appliance in the family of the user can be interconnected and communicated through the network. Therefore, the technical scheme of the novel air conditioner display brightness control is provided by utilizing the current Internet of things technology so as to achieve the purpose of automatically adjusting the brightness of the air conditioner indoor unit display structure.

Specifically, the application provides a room lamp-based air conditioner display brightness control method and an internet of things system using the control method, as shown in the attached drawings 1-2, the internet of things system at least comprises a room lamp, an air conditioner, a regulation and control terminal and a central processing module, the central processing module is communicated with a network, and meanwhile, the central processing module is respectively connected with the room lamp, the air conditioner and the regulation and control terminal and is used for processing relevant data in the brightness automatic adjustment process of an indoor unit display structure. The regulation and control terminal comprises a smart phone, a notebook computer, a tablet personal computer, an air conditioner remote controller, an intelligent bracelet and other devices which are convenient for a user to carry. The Internet of things system further comprises a time module used for providing time information for the automatic adjustment process of the display structure brightness of the indoor unit.

The interconnection technology among all parts of the Internet of things system can directly adopt the existing Internet of things technology; for example, the central processing module is connected with the room lamps and used for acquiring the on and off states of the room lamps, the room lamps can transmit the on signals and the off signals of the room lamps to the central processing module, the room lamps can upload the related signals to the internet, and then the central processing module acquires the related signals through the internet; the room lamp can directly transmit related signals to the central processing module by using Bluetooth, ZigBee and the like, and the central processing module can also transmit control quality to the room lamp through a conventional remote control technology or a conventional communication technology to control the on and off of the room lamp, so that the room lamp and the central processing module are interconnected and intercommunicated. Similarly, the interconnection and intercommunication between the central processing module and the components such as the air conditioner and the control terminal can also adopt the above technology, which is not repeated herein in view of the prior art in the field of internet of things.

Next, the present application focuses on an internet of things technology, and provides a room lamp-based air conditioner display brightness control method.

The air conditioner display brightness control method comprises the following steps:

s1, judging whether the air conditioner is started or not; if yes, go to step S2; if not, controlling the air conditioner display structure to be closed;

on the basis of the Internet of things system, whether the air conditioner is started or not can be judged by the central processing module through interconnection and intercommunication between the central processing module and the air conditioner, if the air conditioner is not started, the central processing module can automatically send an instruction for closing the air conditioner display structure to the air conditioner, and the air conditioner closes the air conditioner display structure after receiving the instruction.

S2, judging whether the room lamp is turned off; if yes, go to step S3; if not, adjusting the brightness of the air conditioner display structure to a third brightness value;

on the basis of the internet of things system, the air conditioner is judged to be started in step S1 through interconnection between the central processing module and the room lamp, then the central processing module is used to judge whether the room lamp is turned off, if the room lamp is not turned off, it is indicated that there is light in the room at this time, the central processing module automatically sends an instruction for adjusting the brightness of the display structure to the third brightness value to the air conditioner, and after receiving the instruction, the air conditioner adjusts the brightness of the display structure to the third brightness value.

And the third brightness value is a brightness value preset in the air conditioner production and manufacturing process by an air conditioner manufacturer. Preferably, a brightness difference exists between the third brightness value and the brightness of the room lamp, so that the air conditioner display structure can be displayed more clearly in the lighting environment.

Furthermore, in the future industrial development and industrial structure adjustment processes, air conditioners and lighting lamps may be produced by air conditioner manufacturers and lighting lamp manufacturers in a coordinated mode and applied to a set of internet-of-things household ecology; at this moment, air conditioner manufacturer, the light manufacturer can mutually support the research even, just can predetermine the luminance parameter of air conditioner display structure, the luminance parameter of light in the production manufacturing process of relevant electrical apparatus, and even realize the relevant regulation and control between the two, in view of this application mainly focuses on the luminance automatically regulated of air conditioning indoor set display structure, does not have too much repeated description to the domestic ecological construction of thing networking.

And S3, adjusting the brightness of the air conditioner display structure according to the current time.

After the analysis processing in steps S1 and S2, if the room light is always off during the operation of the air conditioner, the central processing module may send different air conditioner display brightness control commands to the air conditioner according to the difference of the current time, and after receiving the command, the air conditioner adjusts the brightness of the display structure to a corresponding brightness value. For example: if the current time is the daytime time period, the central processing module can control the air conditioner display structure to increase the brightness, and if the current time is the night time period, the central processing module can control the air conditioner display structure to decrease the brightness, so that the brightness of the display structure of the indoor unit of the air conditioner can be automatically adjusted.

This application utilizes the internet of things under, the operating condition with the air conditioner, the operating condition of room lamp interconnects, make the air conditioner, when the room lamp is all opened, the luminance adjustment that shows the structure with the air conditioner is specific preset luminance value, make the air conditioner show the structure can show more clearly under the environment of light illumination, and open at the air conditioner, under the state that the room lamp was closed, can show the luminance of structure through the automatically regulated air conditioner of current time, realize the luminance automatically regulated of machine display structure in the air conditioner.

For step S3, the method further includes:

s31, judging whether the user adjusts the air conditioner operation parameters; if yes, go to step S32; if not, go to step S33;

the process of adjusting the air conditioner operation parameters by the user can be realized by directly adjusting the air conditioner by using the adjusting and controlling terminal for the user, or by sending an air conditioner adjusting instruction to the central processing module by the conventional artificial intelligence technology for the user, and adjusting the air conditioner by the central processing module.

However, it should be noted that if the user adjusts the air conditioner and turns off the display structure, the display structure is necessarily turned off preferentially, which is consistent with the daily cognition of the use of the air conditioner and the prior art, and is not described herein again; the application focuses more on the situation that a user does not actively close the display structure, and how to realize automatic brightness adjustment of the display structure of the indoor unit of the air conditioner.

S32, the air conditioner executes the upper limit brightness operation according to the current time;

if the user needs to adjust the air conditioner operation parameters, in order to facilitate the user to clearly see the display information of the air conditioner display structure, the air conditioner executes the upper limit brightness operation, so that the display structure is immediately changed into the upper limit brightness, and the requirement that the user acquires the corresponding air conditioner display information is met.

For the upper limit brightness operation, comprising:

if the current time is between 6:00 and 8:00, adjusting the brightness of the air conditioner display structure to be a second brightness value;

if the current time is between 8:00 and 21:00, adjusting the brightness of the air conditioner display structure to be a third brightness value;

if the current time is between 21:00 and 23:00, adjusting the brightness of the air conditioner display structure to be a second brightness value;

if the current time is between 23:00 and 6:00 of the next day, the brightness of the air conditioner display structure is adjusted to be a first brightness value.

The first brightness value, the second brightness value and the third brightness value are preset brightness values in an air conditioner in the air conditioner production and manufacturing process of an air conditioner manufacturer. Meanwhile, in the present application, an air conditioner manufacturer may set only three brightness levels, namely, the first brightness value, the second brightness value and the third brightness value, and may set more brightness levels according to the requirement, which is not repeated herein. In addition, for convenience of description, the display structure being turned off may also be regarded as a brightness level. Meanwhile, it should be noted that the time information in the upper-limit brightness operation is regarded as a time point, for example, 8:00 is regarded as a time point, the brightness of the air-conditioning display structure is the second brightness value between 6:00 and 8:00, and once the time point of 8:00 is passed, the brightness of the air-conditioning display structure is adjusted to the third brightness value.

Since the brightness of the sky changes from dark to light in the morning and from light to dark in the evening, the brightness in the room also changes. In order to form a suitable luminance difference and provide better visual effects, the upper luminance limit also varies. Too bright can cause amazing injury to eyes, and too dark leads to can't see clearly and shows lamp plate information. Therefore, in step S32, the air conditioner display structure is adjusted to different brightness levels according to different time intervals, so that when the user adjusts the air conditioner parameters in the state of the air conditioner running and the room light being turned off, the air conditioner display structure can automatically adjust the brightness of the air conditioner display structure according to the current time, thereby achieving the automatic brightness adjustment of the air conditioner indoor unit display structure.

Preferably, according to the change rule of the sky brightness with time, at the time of factory setting of the air conditioner, the following contents may be defined: the brightness value of the display structure is less than the first brightness value and less than the second brightness value and less than the third brightness value when the display structure is closed. Therefore, the setting condition of the brightness and the specific process of the upper limit brightness operation can be realized, on one hand, when a user adjusts the air conditioner operation parameters before dark, the air conditioner can display information with brighter brightness, the condition that the display brightness of the air conditioner is too low can be avoided when the sky is not dark, so that the user can see the display information of the air conditioner clearly enough before the sky is dark, on the other hand, when the user adjusts the air conditioner operation parameters at night, the air conditioner can display information with softer brightness, and the phenomenon that the display brightness of the air conditioner is too high at night and the eyes of the user are irritated and injured can be avoided.

And S33, executing the lower-limit brightness operation by the air conditioner according to the current time.

If the user does not adjust the air conditioner operation parameter, then the air conditioner carries out lower limit luminance operation, makes the display structure become lower limit luminance, provides more relaxed visual environment on the one hand, lets the user relax more easily, and on the other hand can reduce the interference that the air conditioner shows luminance to user's sleep when the user had a rest, especially when having a rest evening, is favorable to improving user's sleep quality, also can reduce partial power consumption simultaneously.

For the lower limit brightness operation, comprising:

if the current time is between 6:00 and 8:00, adjusting the brightness of the air conditioner display structure to be a first brightness value;

if the current time is between 8:00 and 19:00, adjusting the brightness of the air conditioner display structure to be a second brightness value;

if the current time is 19: 00-21: 00, adjusting the brightness of the air conditioner display structure to be a first brightness value;

if the current time is between 21:00 and 6:00 of the next day, the air conditioner display structure is closed.

The adjustment is carried out according to the work and rest time of the user, from getting up to daily life and work in the daytime, then to leisure and sleep preparation at night and finally to sleep. When the user does not adjust the operation parameters of the air conditioner, the air conditioner displays the display information at a second brightness value in the daytime period from 8 am to 7 pm, so that the user can view the display information at any time; when a user has a rest at night, the air conditioner display structure is automatically closed, so that the interference of the display brightness of the air conditioner to the sleep of the user can be avoided, and the sleep quality of the user can be improved; when the user wakes up in the morning and the user is ready to fall asleep in the evening, the air conditioner displays the first brightness value, so that a more comfortable visual environment is provided, and the user is more relaxed. Similarly, the time information in the lower-limit luminance operation is also regarded as the time point.

Preferably, the brightness values recorded in the lower limit brightness operation, the upper limit brightness operation and the step S2 may all correspond to each other, and are preset values of an air conditioner manufacturer, and all satisfy the limitation that the brightness value < the first brightness value < the second brightness value < the third brightness value when the display structure is closed.

Further, step S31 includes:

s311, judging whether the user adjusts the air conditioner operation parameters or not within a preset time length; if yes, go to step S32; if not, go to step S312;

the preset time is also a preset value of an air conditioner manufacturer, and can be 5-20min, preferably 10 min.

S312, controlling the brightness of the air conditioner display structure to reduce a brightness gear;

s313, judging whether the current brightness gear meets the lower-limit brightness operation corresponding to the current time; if yes, go to step S33; if not, the process returns to step S311.

Therefore, assuming that the user does not adjust the air conditioner operation parameters all the time, the air conditioner display structure can adjust one brightness gear down after every preset time interval until the lower-limit brightness operation is met; meanwhile, in the process, if the user adjusts the air conditioner operation parameters, the air conditioner display structure can be ensured to be adjusted to the upper limit brightness operation at any time, and the execution of automatic brightness adjustment of the air conditioner indoor unit display structure is favorably ensured; meanwhile, in the brightness adjusting process, the lower limit brightness operation and the upper limit brightness operation of the display brightness are also set, so that on one hand, the user can be ensured to fully see the display information when adjusting the air conditioner operation parameters, and on the other hand, when the user does not adjust the air conditioner operation parameters, the user can feel a more comfortable visual environment, and the use comfort of the user can be improved.

The invention also provides an air conditioner, adopts the room lamp-based air conditioner display brightness control method, and can be applied to the Internet of things system; the air conditioner includes a computer-readable storage medium storing a computer program and a processor, the computer program being read and executed by the processor to implement the control method; meanwhile, the invention provides an air conditioner display brightness control device, which adopts the air conditioner display brightness control method based on the room lamp to regulate and control the brightness of an air conditioner display structure; the air conditioner display brightness control device includes: the room lamp state acquisition module is used for acquiring the running state of the room lamp; the user adjusting instruction acquisition module is used for acquiring an adjusting instruction of a user; the time acquisition module is used for acquiring current time information; and the brightness adjusting module is used for adjusting the brightness of the air-conditioning display structure according to at least one of the operating state of the room lamp, the adjusting instruction of the user and the current time information.

In addition, for the specific component structure of the air conditioner, the prior art can be used for reference, and the details are not repeated herein. Meanwhile, the application also provides a computer readable storage medium, wherein a computer program is stored in the computer readable storage medium, and when the computer program is read and executed by a processor, the control method is realized.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. An air conditioner display brightness control method is characterized by comprising the following steps:

s1, judging whether the air conditioner is started or not; if yes, go to step S2; if not, controlling the air conditioner display structure to be closed;

s2, judging whether the room lamp is turned off; if yes, go to step S3; if not, adjusting the brightness of the air conditioner display structure to a third brightness value;

and S3, adjusting the brightness of the air conditioner display structure according to the current time.

2. The method for controlling the brightness of the air conditioner display according to claim 1, wherein the step S3 includes:

s31, judging whether the user adjusts the air conditioner operation parameters; if yes, go to step S32; if not, go to step S33;

s32, the air conditioner executes the upper limit brightness operation according to the current time;

and S33, executing the lower-limit brightness operation by the air conditioner according to the current time.

3. The method for controlling the brightness of the air conditioner display according to claim 2, wherein the step S31 includes:

s311, judging whether the user adjusts the air conditioner operation parameters or not within a preset time length; if yes, go to step S32; if not, go to step S312;

s312, controlling the brightness of the air conditioner display structure to reduce a brightness gear;

s313, judging whether the current brightness gear meets the lower-limit brightness operation corresponding to the current time; if yes, go to step S33; if not, the process returns to step S311.

4. The method as claimed in claim 3, wherein the predetermined time period is 5-20 min.

5. The air conditioner display brightness control method according to claim 2, wherein the upper limit brightness operation comprises:

if the current time is between 6:00 and 8:00, adjusting the brightness of the air conditioner display structure to be a second brightness value;

if the current time is between 8:00 and 21:00, adjusting the brightness of the air conditioner display structure to be a third brightness value;

if the current time is between 21:00 and 23:00, adjusting the brightness of the air conditioner display structure to be a second brightness value;

if the current time is between 23:00 and 6:00 of the next day, the brightness of the air conditioner display structure is adjusted to be a first brightness value.

6. The air conditioner display brightness control method according to claim 2, wherein the lower limit brightness operation comprises:

if the current time is between 6:00 and 8:00, adjusting the brightness of the air conditioner display structure to be a first brightness value;

if the current time is between 8:00 and 19:00, adjusting the brightness of the air conditioner display structure to be a second brightness value;

if the current time is 19: 00-21: 00, adjusting the brightness of the air conditioner display structure to be a first brightness value;

if the current time is between 21:00 and 6:00 of the next day, the air conditioner display structure is closed.

7. The method as claimed in claim 5 or 6, wherein the first brightness value < the second brightness value < the third brightness value.

8. An air conditioner comprising a computer readable storage medium storing a computer program and a processor, the computer program being read and executed by the processor to implement the method according to any one of claims 1 to 7.

9. A computer-readable storage medium, characterized in that it stores a computer program which, when read and executed by a processor, implements the method according to any one of claims 1-7.

10. An air conditioner display brightness control device, comprising:

the room lamp state acquisition module is used for acquiring the running state of the room lamp;

the user adjusting instruction acquisition module is used for acquiring an adjusting instruction of a user;

the time acquisition module is used for acquiring current time information; and

and the brightness adjusting module is used for adjusting the brightness of the air-conditioning display structure according to at least one of the operating state of the room lamp, the adjusting instruction of the user and the current time information.

Images