CN112379609B - Display panel having control function, control method of display panel, and storage medium - Google Patents

Abstract

The present application relates to a display panel having a control function, a control method of the display panel, and a storage medium. The method comprises the following steps: a first key; the first display lamp is arranged on the first key and used for illuminating the first key; the photosensitive sensor is connected with the first display lamp and used for controlling the display state of the first display lamp according to the detected illumination intensity; a buzzer; and the controller is connected with the buzzer and the first display lamp and is used for controlling the working state of the buzzer according to the display state of the first display lamp. By adopting the method, the user can accurately position and operate the display panel and simultaneously avoid noise interference.

Description

Display panel having control function, control method of display panel, and storage medium

Technical Field

The present invention relates to the field of display panel technologies, and in particular, to a display panel having a control function, a control method of the display panel, and a storage medium.

Background

Along with the rapid development of intelligent equipment, the display panel that equipment was collocated is also more and more intelligent, for example central air conditioning's drive-by-wire ware, intelligent alarm clock's display panel etc.. And when the user effectively operates the keys on the display panel, the buzzer on the display panel can sound to play a certain prompting role.

However, not only is there inevitable noise interference caused by the buzzer sounding the prompt during the night break, but also the user cannot accurately position the control panel during this period due to the dark environment.

Disclosure of Invention

The invention provides a display panel with a control function, a control method of the display panel and a storage medium, aiming at the problems that a buzzer brings noise interference and a user cannot accurately position and operate the display panel during a rest period at night.

A display panel having a control function, comprising:

a first key;

the first display lamp is arranged on the first key and used for illuminating the first key;

the photosensitive sensor is connected with the first display lamp and used for controlling the display state of the first display lamp according to the detected illumination intensity;

a buzzer;

and the controller is connected with the buzzer and the first display lamp and is used for controlling the working state of the buzzer according to the display state of the first display lamp.

In one embodiment, the display panel further comprises a second key for realizing the function control of the display panel, wherein the first key is an on-off key of the display panel;

the second display lamp is arranged on the second key and connected with the controller and is used for illuminating the second key;

the controller is further used for controlling the display state of the second display lamp according to the operation states of the first key and the second key.

In one embodiment, the photosensitive sensor is further configured to control the first display lamp to be turned on when a resistance value of the photosensitive resistor obtained by detecting the illumination intensity is equal to or greater than a limit value;

and the photosensitive sensor is also used for controlling the first display lamp to be turned off when the resistance value of the photosensitive resistor obtained by detecting the illumination intensity is smaller than the limit value.

In one embodiment, the controller is further configured to control the buzzer to turn off when the display state of the first display lamp is on; and when the display state of the first display lamp is off, controlling the buzzer to be started.

In one embodiment, the controller is further configured to control the second display light to be turned on if it is detected that the first key is triggered by being operated when the first display light is turned on.

In one embodiment, the controller is further configured to, when the second display lamp is on, control the second display lamp to be turned off if it is detected that the first key and the second key are not triggered by the operation within a preset time.

A display panel control method, the method comprising:

detecting the illumination intensity in real time;

controlling the display state of a first display lamp on the first key according to the illumination intensity;

and controlling the buzzer to be turned on and off according to the display state of the first display lamp.

In one embodiment, the method further comprises the following steps:

acquiring the operating states of the first key and the second key; the first key is an on-off key of the display panel, and the second key is a key for realizing the function control of the display panel;

controlling the display state of a second display lamp according to the operation states of the first key and the second key; the second display lamp is arranged on the second key and used for illuminating the second key.

In one embodiment, the controlling the display state of the first display lamp on the first key according to the illumination intensity includes:

acquiring the resistance value of the photoresistor obtained when the illumination intensity is detected;

comparing the resistance value of the photoresistor with a preset limit value;

when the resistance value of the photoresistor is equal to or larger than the limit value, controlling the first display lamp to be on;

and when the resistance value of the photosensitive resistor is smaller than the limit value, controlling the first display lamp to be turned off.

In one embodiment, the controlling the working state of the buzzer according to the display state of the first display lamp includes:

when the display state of the first display lamp is bright, controlling the buzzer to be closed;

and when the display state of the first display lamp is off, controlling the buzzer to be started.

In one embodiment, the controlling the display state of the second display lamp according to the operation states of the first key and the second key includes:

and when the first display lamp is on, if the first key is detected to be operated and triggered, controlling the second display lamp to be on.

In one embodiment, the controlling the display state of the second display lamp according to the operation states of the first key and the second key includes:

and when the second display lamp is on, if the first key and the second key are not operated and triggered within the preset time, controlling the display lamp of the second key to be turned off.

In one embodiment, the method further comprises:

and when the second display lamp is on, if the second key is detected to be operated and triggered, controlling the second display lamp to flicker according to the frequency of the second key which is operated and triggered.

A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, realizes the steps of the control method of the display panel described in any one of the above.

The display panel with the control function, the control method of the display panel and the storage medium are characterized in that the display lamp for illuminating the key is arranged on the key, and the display state of the display lamp is controlled according to the detected illumination intensity through the photosensitive sensor connected with the display lamp of the key; simultaneously, according to the controller of being connected with bee calling organ, according to the operating condition of the display state control bee calling organ of the display lamp of button to the realization is according to the peripheral actual illumination intensity control display lamp illumination button of display panel, even also can make the quick accurate location display panel of user control under the state of night, and the operating condition of corresponding control bee calling organ, for example open and close, thereby can avoid noise interference.

Drawings

FIG. 1 is a block diagram showing a structure of a display panel having a control function in one embodiment;

FIG. 2 is a block diagram showing a structure of a display panel having a control function in another embodiment;

FIG. 3 is a flow chart illustrating a control method of the display panel according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

As shown in fig. 1, there is provided a display panel having a control function, including: a first key 10, a first display lamp 20, a photosensor 30, a buzzer 40, and a controller 50.

Wherein the first key 10 is provided on the display panel 1. A first display lamp 20 is provided on the first key 10 for illuminating the first key 10. The first display lamp 20 is connected to a photosensor 30, and the photosensor 30 is used for controlling the display state of the first display lamp 20 according to the detected illumination intensity. The buzzer 40 is connected with the controller 50, the first display lamp 20 is connected with the controller 50, and the controller 50 is used for controlling the working state of the buzzer 40 according to the display state of the first display lamp 20. The display state of the first display lamp includes on and off, and the first key 10 is illuminated when the first display lamp 20 is on. The operating state of the buzzer 40 includes on and off, and when the buzzer 40 is controlled to be on, the operation of the user can be prompted as an effective operation by ringing. And when the buzzer 40 is controlled to be turned off, the buzzer 40 does not respond to any operation by the user.

Specifically, the light sensor 30 detects the illumination intensity of the periphery in real time, and when the light sensor 30 determines that the user can clearly and accurately position the display panel to be operated according to the currently detected illumination intensity, no extra light is needed to illuminate the button on the display panel. Therefore, the light sensor 30 controls the operation state of the first display lamp 20 to be off by opening the relay and opening the loop.

When the photosensitive sensor 30 determines that the user cannot accurately position the display panel according to the current illuminance for operation according to the current detected illumination intensity, an additional light source is needed to assist the user in positioning and controlling the display panel. Therefore, the photosensitive sensor 30 controls the working state of the first display lamp 20 to be bright by closing the relay and turning on the loop.

Meanwhile, the controller 50 is connected to the first display lamp 20, and the controller 50 controls the operating state of the buzzer 40 according to the detected operating state of the first display lamp 20. That is, the controller 50 controls the buzzer 40 to be turned on and off according to the operation state of the first display lamp 20. For example, when the controller 50 detects that the connected first display lamp 20 is controlled to be on by the photosensor 30, the controller 50 may determine that it is currently in the evening rest period, and in order to avoid the noise interference of the buzzer 40, the controller 50 controls the buzzer 40 to turn off the ringing.

The display panel with the control function is characterized in that the keys are provided with display lamps for illuminating the keys, and the display states of the display lamps are controlled according to the detected illumination intensity through photosensitive sensors connected with the display lamps of the keys; simultaneously, according to the controller of being connected with bee calling organ, according to the operating condition of the display state control bee calling organ of the display lamp of button to the realization is according to the peripheral actual illumination intensity control display lamp illumination button of display panel, even also can make the quick accurate location display panel of user control under the state of night, and the operating condition of corresponding control bee calling organ, for example open and close, thereby can avoid noise interference. In addition, the display lamp is directly arranged on the key, and the light-emitting position is the key position, so that the position of the key can be more clearly and accurately positioned compared with the position arranged on the periphery of the key.

In one embodiment, as shown in fig. 2, another display panel having a control function is provided, including a first key 10, a first display lamp 20, a photosensor 30, a buzzer 40, a controller 50, and a second key 60 and a second display lamp 70.

Wherein the first key 10 and the second key 60 are provided on the display panel 1. A first display lamp 20 is provided on the first key 10 for illuminating the first key 10. A second display lamp 70 is provided on the second key 60 for illuminating the second key 60. The first display lamp 20 is connected to a photosensor 30, and the photosensor 30 is used for controlling the display state of the first display lamp 20 according to the detected illumination intensity. The buzzer 40, the first display lamp 20 and the second display lamp 70 are all connected with the controller 50, and the controller 50 is used for controlling the working state of the buzzer 40 according to the display state of the first display lamp 20 and controlling the display state of the second display lamp 80 according to the operation state of the first key 10 and the second key 60. In this embodiment, the first key is a switch key, and the switch key is a key for controlling the display panel to start and shut down corresponding to the smart device. The second key is a key for realizing the function control of the display panel, and can be understood as a function key on the display panel. Taking the wire controller of the central air conditioner as an example, the second button includes, but is not limited to, a "wind speed" button, a "+" - "button for adjusting temperature, etc.

Specifically, while the photosensor 30 controls the display state of the first display lamp 20 according to the intensity of light, and the controller 50 controls the operation state of the buzzer 40 according to the display state of the first display lamp 20, the controller 50 also controls the display state of the second display lamp 80 according to the operation states of the first key 10 and the second key 60. That is, the controller 50 detects the operation trigger of the first key 10 and the second key 60 by the user, and controls the display state of the second display lamp 70 on the second key 60 by the operation trigger of the user. For example, in the case that the first display lamp 20 is turned on during the night break, since only the first key 10 is illuminated at this time, when the user operates and triggers the first key 10 or the second key 60, the controller 50 may control the second display lamp 70 to illuminate the second key, so as to facilitate the user to accurately operate the second key 60.

In this embodiment, control through the button and control the display state of the display lamp of function button, only show the second display lamp that corresponds when user operation triggers, not only be convenient for the user accurate operation function button, can also practice thrift electric energy resource.

In one embodiment, the photosensitive sensor 30 is further configured to control the first display 20 to light when the resistance value of the photosensitive resistor obtained by detecting the illumination intensity is equal to or greater than a limit value; and when the resistance value of the photoresistor obtained by detecting the illumination intensity is smaller than the limit value, controlling the first display lamp 20 to be turned off.

The limit value is a resistance value preset for judging whether the current illumination intensity is enough for a user to accurately position the control display panel, the condition that the current illumination intensity is equal to or greater than the limit value indicates that the current illumination intensity is not enough for the user to accurately position the control display panel, and the condition that the current illumination intensity is less than the limit value indicates that the current illumination intensity is enough for the user to accurately position the control display panel.

Specifically, since the light sensor 30 determines the illumination intensity directly as the resistance of the photo resistor, each time the illumination intensity is detected, a corresponding resistance of the photo resistor is obtained. The light sensor 30 can determine the intensity of the illumination through the resistance value of the light sensor. The weaker the intensity of the light detected by the photosensor 30, the larger the resistance of the photo resistor. Conversely, the stronger the intensity of the light detected by the photosensor 30, the smaller the resistance of the photo resistor. Therefore, when the resistance value of the photo resistor obtained by detecting the light intensity by the photo sensor 30 is equal to or greater than the limit value, it indicates that the light intensity is weak enough to help the user accurately position the display panel for operation. Therefore, the photosensor 30 controls the first display 20 to light up by closing the relay to conduct the circuit with the first display 20. When the resistance value of the photo-resistor obtained by detecting the illumination intensity by the photo-sensor 30 is smaller than the limit value, it indicates that the illumination intensity is not so weak that the display panel cannot be accurately positioned and controlled. Therefore, the first indicator lamp 20 is controlled to be turned off by opening the relay to open the circuit. That is, if the display state of the first indicator lamp 20 is on at this time, the off relay controls the first indicator lamp 20 to be turned off. If the display state of the first indicator light 20 is turned off at this time, the relay is not controlled at all, and the off state is maintained, and the first indicator light 20 is kept turned off.

In the embodiment, the display state of the first display lamp is controlled through the resistance value of the photoresistor, so that the control accuracy is improved.

In one embodiment, the controller 50 is further configured to control the buzzer 40 to turn off when the display status of the first display lamp 20 is on; when the display state of the first display lamp 20 is off, the buzzer 40 is controlled to be turned on.

Specifically, when the controller 50 detects that the first display lamp 20 is controlled to be turned on by the photosensor 30, it may be determined that a evening rest period is present, during which the controller 50 controls the buzzer 40 to be turned off in order to avoid noise interference of the ringing of the buzzer 40 with the rest of the user. When the controller 50 detects that the first display lamp 20 is controlled to be turned off by the photosensitive sensor 30, indicating that the current night rest period is not, the controller 50 may control the buzzer 40 to be turned on, and then sound through the buzzer 40 when the user operates the key, so as to prompt the effective operation of the user.

In this embodiment, the controller controls the operation of the buzzer according to the display state of the first display lamp, so as to avoid noise interference for the user.

In one embodiment, the controller 50 is further configured to control the second display lamp 70 to be turned on if the first key 10 is detected to be triggered by the operation when the first display lamp 20 is turned on.

Specifically, when the first display lamp 20 is on, indicating that it is during the evening break, only the first display lamp 20 is on at this time for energy saving. Therefore, when the user controls the display panel at this time, the display panel is positioned at the display panel position and the first key position only by the first display lamp of the first key. The second key actually used for operating the control display panel is not illuminated, and it is difficult for the user to accurately operate the second key. Therefore, the user can operate and trigger the first key 10 illuminated by the first display lamp 20, so that the controller controls the second display lamp 70 corresponding to the second key 60 to illuminate the second key 60. That is, when the controller 50 detects that the first key 10 is activated by the user while the first display lamp 20 is on, the controller controls the second display lamp 70 to be on, thereby facilitating the user to operate the second key.

In addition, in order to avoid conflict with the original control function of the first key 10, during the time that the first display lamp 20 is turned on, the user presses the first key 10 for the first time to indicate that the second display lamp 70 controlling the second key 60 is turned on, and then the user's operation on the first key 10 is regarded as the original control function of the first key 10. For example, when the user presses the first key 10 for the first time while the first display lamp 20 is turned on and the second display lamp 70 is turned off, the controller 50 controls the second display lamp to be turned on if the user regards that the second display lamp 70 is turned on. At this time, the first display lamp 20 and the second display lamp 70 are both in an on state, and if the user presses the first key 10 again, it is determined that the smart device corresponding to the display panel is turned off/on.

In one embodiment, the controller 50 is further configured to control the second display lamp 70 to be turned off when it is detected that the second button 60 is not operated and triggered within a preset time while the second display lamp 70 is turned on.

The preset time is a preset time range for judging that the user stops operating. The setting can be made according to actual requirements, for example, 10 seconds, 20 seconds, etc.

Specifically, after the second display lamp 70 is controlled by the controller 50 to be turned on, if it is detected that the second key 60 is not triggered by the user operation within the preset time, the controller 50 may regard that the user does not need to operate the second key 60 at present, and then control the second display lamp 70 to be turned off, so as to implement energy saving. For example, after the user operates the second key 60 once, the controller 50 starts a timer to count time starting from the current time point. And when the timed time reaches the preset time of 20 seconds, the fact that the user has the next operation trigger on the second key is still not detected. The controller 50 may determine that the user does not need to operate the second key, and the controller 50 controls the second display lamp 70 to be turned off, so as to effectively save the power resource under the condition that the user can be prompted about the position of the display panel.

In one embodiment, the controller 50 is further configured to control the second display lamp 70 to flash according to a frequency of the second key 60 being operated and triggered when the second key 60 is detected to be operated and triggered when the second display lamp 70 is turned on.

Specifically, when the second display lamp 70 is in a bright state, if the user operates the second key 60, the second display lamp 70 blinks once every time the user effectively presses the second key 60 to prompt the user to perform an effective operation. Similarly, when the operation of the original function is triggered on the first key 10, the first display lamp 20 may be controlled to blink once at a frequency of one effective operation. In the embodiment, the effective operation is prompted by adopting the mode that the display lamp flickers under the condition that the buzzer turns off and rings.

In one embodiment, as shown in fig. 3, there is provided a control method of a display panel having a control function, including the steps of:

step S302, the photosensitive sensor detects the illumination intensity in real time to obtain the resistance value of the photosensitive resistor.

Step S304, comparing the resistance value of the photoresistor with a preset limit value.

Step S306, when the resistance value of the photoresistor is equal to or greater than the limit value, controlling the first display lamp on the first key to be on, and controlling the buzzer to be off, and entering step S310.

Step S308, when the resistance value of the photoresistor is smaller than the limit value, the first display lamp is controlled to be turned off, the buzzer is controlled to be turned on, and the step S316 is entered.

Step S310, when detecting that the first key is triggered by the first operation, controlling a second display lamp on the second key to be on, and entering step S312.

Step S312, when the operation triggering the first key or the second key is detected, the first display lamp or the second display lamp is controlled to flash, the user is prompted to perform effective operation, and the step S314 is entered.

Step S314, when it is detected that the first key and the second key are not operated and triggered within the preset time, controlling a second display lamp of the second key to be turned off.

And step S316, when the user operates the first key or the second key, the buzzer rings according to the control frequency of the user to prompt the user to be effective operation.

Specifically, the photosensitive sensor detects the illumination intensity of the surrounding environment in real time to obtain the corresponding resistance value of the photosensitive resistor. And comparing the resistance value of the photosensitive resistor with a preset limit value, and judging whether the current state is a night rest state or an unserviceable state.

When the resistance value of the photosensitive resistor is judged to be equal to or greater than the limit value, the user cannot accurately position the display panel to operate according to the current light intensity, and at the moment, the additional light source is needed to assist the user in positioning and controlling the display panel. Therefore, the first display lamp on the first key is controlled to be on. And the first display lamp is on and represents the rest period of the night. In order to avoid noise interference from influencing the rest of the user, the controller controls the buzzer to be turned off while synchronously detecting that the first display lamp is turned off. In this case, then, if the user needs to operate the second key on the display panel, the first key may be pressed first. When the controller detects that the first key is pressed down by a user, the second display lamp on the second key is controlled to be turned on, and the second key is illuminated through the second display lamp, so that the user can operate accurately. Meanwhile, in order to prompt the user of effective operation, the controller controls the first display lamp or the second display lamp to flash according to the operation trigger frequency of the user on the first key or the second key. That is, the user is prompted with a frequency at which the user flickers once in response to pressing of the effective operation.

And when the resistance value of the photoresistor is smaller than the limit value, the current illumination intensity can enable a user to clearly and accurately position and control the display panel, at the moment, the display panel is not required to be illuminated by extra light, and then the first display lamp is controlled to be turned off. And in order to prompt the user to effectively operate under the condition that the display lamp is turned off, the controller synchronously detects that the first display lamp is turned off and controls the buzzer to be turned on. Then, when the user operates the first key or the second key, if the operation of the user is effective operation, the buzzer prompts the user according to the frequency that the user rings once when pressing the effective operation once.

In the control method of the display panel, the display state of the display lamp is controlled according to the detected illumination intensity; simultaneously, according to the controller of being connected with bee calling organ, according to the operating condition of the display state control bee calling organ of the display lamp of button to the realization is according to the peripheral actual illumination intensity control display lamp illumination button of display panel, even also can make the quick accurate location display panel of user control under the state of night, and the operating condition of corresponding control bee calling organ, for example open and close, thereby can avoid noise interference.

Simultaneously, only through the position of first display lamp suggestion user's display panel on the first button, brighten the second display lamp again and illuminate the second button when needs operate to utilize the mode of display lamp scintillation to indicate user's effective operation under the circumstances that bee calling organ closed, effectual resources are saved again when promoting user experience.

It should be understood that, although the steps in the flowchart of fig. 3 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a portion of the steps in fig. 3 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed in turn or alternately with other steps or at least a portion of the other steps or stages.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of:

detecting the illumination intensity in real time;

controlling the display state of a first display lamp on the first key according to the illumination intensity;

and controlling the working state of the buzzer according to the display state of the first display lamp.

In one embodiment, the computer program when executed by the processor further performs the steps of: acquiring the operating states of the first key and the second key; the first key is an on-off key of the display panel, and the second key is a key for realizing the function control of the display panel; controlling the display state of the second display lamp according to the operation states of the first key and the second key; wherein the second display lamp is used for illuminating the second key

In one embodiment, the computer program when executed by the processor further performs the steps of: acquiring the resistance value of the photoresistor obtained when the illumination intensity is detected; comparing the resistance value of the photoresistor with a preset limit value; when the resistance value of the photosensitive resistor is equal to or greater than the limit value, controlling the first display lamp to be on; and when the resistance value of the photosensitive resistor is smaller than the limit value, controlling the first display lamp to be turned off.

In one embodiment, the computer program when executed by the processor further performs the steps of: when the display state of the first display lamp is bright, controlling the buzzer to be closed; and when the display state of the first display lamp is off, controlling the buzzer to be started.

In one embodiment, the computer program when executed by the processor further performs the steps of: when the display state of the first display lamp is bright, controlling the buzzer to be closed; and when the display state of the first display lamp is off, controlling the buzzer to be started.

In one embodiment, the computer program when executed by the processor further performs the steps of: and when the second display lamp is on, if the first key and the second key are not operated and triggered within the preset time, controlling the display lamp of the second key to be turned off.

In one embodiment, the computer program when executed by the processor further performs the steps of: and when the second display lamp is on, if the second key is detected to be operated and triggered, controlling the second display lamp to flicker according to the frequency of the operated and triggered second key.

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 hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A display panel having a control function, comprising:

a first key;

the first display lamp is arranged on the first key and used for illuminating the first key;

the photosensitive sensor is connected with the first display lamp and used for controlling the display state of the first display lamp according to the detected illumination intensity;

a buzzer;

the controller is connected with the buzzer and the first display lamp and is used for controlling the working state of the buzzer according to the display state of the first display lamp; when the display state of the first display lamp is bright, controlling the buzzer to be closed; when the display state of the first display lamp is off, controlling the buzzer to be started;

the controller is further used for controlling the first display lamp to flicker according to the frequency of the first key triggered by operation when the first display lamp is on and the first key is detected to be triggered by operation;

the display panel also comprises a second key for realizing the function control of the display panel, and the first key is an on-off key of the display panel; the second display lamp is arranged on the second key and connected with the controller and is used for illuminating the second key;

the controller is further used for controlling the display state of the second display lamp according to the operation states of the first key and the second key.

2. The display panel of claim 1, wherein the photo sensor is further configured to control the first display lamp to be turned on when a photo resistor resistance value obtained by detecting the illumination intensity is equal to or greater than a threshold value;

and the photosensitive sensor is also used for controlling the first display lamp to be turned off when the resistance value of the photosensitive resistor obtained by detecting the illumination intensity is smaller than the limit value.

3. The display panel of claim 1, wherein the controller is further configured to control the second display light to be on if the first key is detected to be triggered by the operation when the first display light is on.

4. The display panel of claim 1, wherein the controller is further configured to control the second display lamp to go off if it is detected that the first button and the second button are not triggered by the operation within a preset time period when the second display lamp is on.

5. A display panel control method, characterized in that the method comprises:

detecting the illumination intensity in real time;

controlling the display state of a first display lamp on the first key according to the illumination intensity;

controlling the working state of a buzzer according to the display state of the first display lamp; when the display state of the first display lamp is bright, controlling the buzzer to be closed; when the display state of the first display lamp is off, controlling the buzzer to be started

When the first display lamp is on and the first key is detected to be operated and triggered, controlling the first display lamp to flicker according to the frequency of the first key operated and triggered;

acquiring the operating states of the first key and the second key; the first key is an on-off key of the display panel, and the second key is a key for realizing the function control of the display panel;

controlling the display state of a second display lamp according to the operation states of the first key and the second key; the second display lamp is arranged on the second key and used for illuminating the second key.

6. The method of claim 5, wherein controlling the display state of the first display light on the first key according to the illumination intensity comprises:

acquiring the resistance value of the photoresistor obtained when the illumination intensity is detected;

comparing the resistance value of the photoresistor with a preset limit value;

when the resistance value of the photoresistor is equal to or larger than the limit value, controlling the first display lamp to be on;

and when the resistance value of the photosensitive resistor is smaller than the limit value, controlling the first display lamp to be turned off.

7. The method of claim 5, wherein the controlling the display state of the second display light according to the operating states of the first and second keys comprises:

and when the first display lamp is on, if the first key is detected to be operated and triggered, controlling the second display lamp to be on.

8. The method of claim 5, wherein the controlling the display state of the second display light according to the operating states of the first and second keys comprises:

and when the second display lamp is on, if the first key and the second key are not operated and triggered within the preset time, controlling the display lamp of the second key to be turned off.

9. The method of claim 5, further comprising:

and when the second display lamp is on, if the second key is detected to be operated and triggered, controlling the second display lamp to flicker according to the frequency of the second key which is operated and triggered.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 5 to 9.

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