CN111212176A - Night lamp illumination method, device, terminal and readable storage medium based on folding screen - Google Patents

Abstract

The invention provides a night lamp illumination method, a night lamp illumination device, a terminal and a readable storage medium based on a folding screen, wherein the night lamp illumination method based on the folding screen comprises the following steps: receiving the starting operation of a night lamp illumination mode of the folding screen; obtaining a bending angle of the folding screen; when the bending angle of the folding screen meets the awakening condition, triggering the folding screen to be lightened; and adjusting the state of the folding screen according to the state parameters of the folding screen. The night lamp illumination method, the night lamp illumination device, the night lamp illumination terminal and the readable storage medium based on the folding screen are convenient to operate and use and save electric energy.

Description

Night lamp illumination method, device, terminal and readable storage medium based on folding screen

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of intelligent equipment, in particular to a night lamp illumination method, a night lamp illumination device, a night lamp illumination terminal and a readable storage medium based on a folding screen.

[ background of the invention ]

Along with the continuous progress of the technology, the intelligent terminal equipment is also continuously updated and updated, and as an information output end of the intelligent terminal, the intelligent terminal equipment is also from small to large, and then the intelligent terminal equipment is used as a full-screen, double-screen or even folding screen. For the intelligent terminal of the foldable screen, the size of the foldable screen is very large after the foldable screen is unfolded, and very excellent visual experience is brought to a user.

The existing night lamp adopts a flashlight for illumination, but the flashlight has the problems of low use frequency, inconvenient finding and dazzling light; or the flashlight function of the mobile phone is adopted, but the existing mobile phone has the problems of inconvenient placement and dazzling light. When a night light with weak light is temporarily needed in a special condition needing weak light, such as when a child sleeps, the flashlight function of the flashlight or the mobile phone cannot achieve an ideal effect.

In view of the above, it is desirable to provide a new night light illumination method, apparatus, terminal and readable storage medium based on a folding screen to overcome the above-mentioned drawbacks.

[ summary of the invention ]

The invention aims to provide a night lamp illumination method, a night lamp illumination device, a night lamp illumination terminal and a readable storage medium based on a folding screen, which are simple to operate, convenient to use and capable of saving electric energy.

In order to achieve the above object, the present invention provides a night light illumination method based on a folding screen, the method comprising:

receiving the starting operation of a night lamp illumination mode of the folding screen;

acquiring a bending angle of the folding screen;

triggering the folding screen to be lightened when the bending angle of the folding screen is monitored to meet the awakening condition;

and adjusting the state of the folding screen according to the state parameters of the folding screen.

In a preferred embodiment, the step of triggering the lighting of the folding screen when the bending angle of the folding screen is monitored to meet the wake-up condition further includes:

when the bending angle does not meet the awakening condition, controlling the folding screen to be turned off; the awakening condition is within a preset angle range of the lighting of the folding screen.

In a preferred embodiment, the state of the foldable screen includes brightness of the foldable screen, the state parameter includes light intensity of an ambient environment where the foldable screen is located, and the adjusting the state of the foldable screen according to the state parameter of the foldable screen includes:

monitoring the light intensity of the surrounding environment where the folding screen is located;

adjusting the brightness of the folding screen according to the light intensity;

when the monitored light intensity is greater than or equal to a preset light intensity value, controlling the folding screen to be extinguished;

and when the monitored light intensity is smaller than a preset light intensity value, controlling the folding screen to be continuously lightened.

In a preferred embodiment, the method further comprises: the state of the folding screen also comprises color, the state parameters of the folding screen comprise response operation acted on the folding screen, and the response operation comprises first preset operation and second preset operation; the adjusting the state of the folding screen according to the state parameter of the folding screen comprises:

when a first preset operation acting on the folding screen is monitored,

the first preset operation slides along a first preset direction, and the brightness of the folding screen is in direct proportion to the sliding distance of the first preset operation along the first preset direction;

or the first preset operation slides along a second preset direction, and the brightness of the folding screen is in inverse proportion to the sliding distance of the first preset operation along the second preset direction;

when a second preset operation acting on the folding screen is monitored, the color of the folding screen is changed.

The invention also provides a night lamp lighting device based on the folding screen, which comprises:

the switch module is used for receiving the starting operation of the night lamp illumination mode of the folding screen;

the bending angle sensing module is used for acquiring the bending angle of the folding screen;

and the processor module triggers the lighting of the folding screen and adjusts the state of the folding screen according to the state parameters of the folding screen when the bending angle of the folding screen meets the awakening condition.

In a preferred embodiment, when the bending angle of the folding screen is changed by the bending angle sensing module and does not satisfy the awakening condition any more, the processor module triggers the folding screen to be turned off; the awakening condition is within a preset angle range of the lighting of the folding screen.

In a preferred embodiment, the folding screen based night light illumination device further comprises:

the folding screen state parameter comprises the light intensity of the environment around the folding screen, the folding screen state comprises the brightness of the folding screen, and the light intensity monitoring module is used for monitoring the light intensity of the environment around the folding screen;

the processor module adjusts the state of the folding screen according to the state parameters of the folding screen, and the state adjustment comprises the following steps: the processor module receives the light intensity monitored by the light intensity monitoring module and adjusts the brightness of the folding screen according to the light intensity;

when the light intensity monitored by the light intensity monitoring module received by the processor module is greater than or equal to a preset light intensity value of the processor module, the processor module controls the folding screen to be turned off;

and when the light intensity monitored by the light intensity monitoring module received by the processor module is smaller than the preset light intensity value of the processor module, the processor module controls the folding screen to be continuously lightened.

In a preferred embodiment, the folding screen based night light illumination device further comprises:

the response module is used for responding to response operation acted on the folding screen, and the response operation comprises a first preset operation and a second preset operation; the state parameters of the folding screen comprise response operations acting on the folding screen, and the state of the folding screen also comprises color;

when the processor module receives a first preset operation of the response module,

the processor module enables the brightness of the folding screen to be in direct proportion to the sliding distance of the first preset operation along the first preset direction;

or the first preset operation slides along a second preset direction, and the processor module enables the brightness of the folding screen to be in inverse proportion to the sliding distance of the first preset operation along the second preset direction;

when the processor module receives a second preset operation of the response module, the processor module changes the color of the folding screen.

The invention also provides a night light illumination terminal based on the folding screen, which comprises a memory and a processor module, wherein the memory stores a computer program, and the processor module realizes the steps of the night light illumination method based on the folding screen when executing the computer program.

The present invention also provides a readable storage medium having stored thereon a computer program which, when executed by a processor module, performs the steps of the folding screen based night light illumination method.

According to the night lamp illumination method, the night lamp illumination device, the night lamp illumination terminal and the readable storage medium based on the folding screen, provided by the invention, the night lamp illumination conditions are sequentially judged through night lamp mode starting, folding screen bending angle sensing and folding screen ambient illumination intensity monitoring, so that the night lamp illumination mode of the folding screen is convenient to operate and use, and the electric energy is saved. The folding screen night lamp based illumination method provided by the invention is convenient to operate and use and saves electric energy.

[ description of the drawings ]

Fig. 1 is a flowchart of a night light illumination method based on a folding screen according to the present invention.

Fig. 2 is a schematic view of a night light illumination device based on a folding screen provided by the invention.

Fig. 3 is a schematic view of a night light illumination terminal based on a folding screen provided by the invention.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantageous effects of the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and the detailed description. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1, the present invention provides a night light illumination method based on a folding screen, including the following steps:

in step S01, an operation to turn on the night light illumination mode of the folding screen is received.

Specifically, be provided with the switch option of night-light mode on the folding screen, night-light mode function option and functional options such as WIFI, bluetooth, flashlight place with the region or be solitary setting in the button of folding screen one side. After the night lamp illumination mode is switched on, the folding screen enters a standby state and is turned on after the awakening condition is met, namely the step S02 is met.

Step S02, obtaining a bending angle of the folding screen.

In this step, the folding screen includes a first straight plate and a second straight plate. The bending angle of the folding screen is the included angle formed by the first straight plate and the second straight plate under the action of external force.

And step S03, when the bending angle of the folding screen meets the awakening condition, triggering the folding screen to light.

In this step, treat that the crooked angle of folding screen satisfies the condition of awakening up, the folding screen is lighted, also is fixed in the contained angle that first straight board, second straight board become and satisfies the condition of awakening up, and the folding screen is lighted, and then directly lights after preventing to click night-light mode function option because of the maloperation.

Furthermore, it can be understood that after the foldable screen is lighted, when the bending angle of the foldable screen changes and does not satisfy the awakening condition any more, the foldable screen is turned off, that is, the foldable screen is still in a standby state.

The awakening condition in this step is a preset angle range within which the folding screen is lighted. Specifically, the preset angle range is 30-60 degrees. The preset angle range is set to be 30-60 degrees, so that the preset angle range is large, on one hand, the folding screen is convenient to light, on the other hand, after the two ends of the folding screen are bent, the two ends of the first straight plate and the second straight plate which are back to back can form stable supports, and the angle can be adjusted within a certain range without influencing continuous lighting.

And step S04, adjusting the state of the folding screen according to the state parameters of the folding screen.

Step S04 includes the following steps:

step S41, monitoring the light intensity of the surrounding environment where the folding screen is located;

in this step, the state parameter includes the light intensity of the surrounding environment where the folding screen is located.

And step S42, adjusting the brightness of the folding screen according to the light intensity of the surrounding environment where the folding screen is located.

In this step, the state of the folding screen includes the brightness of the folding screen.

After the folding screen is lightened, when the light intensity of the surrounding environment of the folding screen is monitored to be larger than or equal to the preset light intensity value, the folding screen is extinguished. That is, the light intensity of the folded ambient environment meets the normal requirement, and the folded environment does not need to be lightened so as to save electric energy. And when the monitored light intensity of the surrounding environment of the folding screen is smaller than the preset light intensity value, continuously lightening the folding screen. That is, the light intensity of the folded surrounding environment cannot meet the normal requirement, and the light supplement needs to be continuously lightened.

In addition, when the folding screen is continuously lightened, the brightness of the folding screen can be changed along with the change of the light intensity. Specifically, when the monitored light intensity of the surrounding environment where the folding screen is located is increased and not greater than the preset light intensity, the brightness of the folding screen is controlled to be continuously increased; and when the light intensity of the surrounding environment where the folding screen is located is detected to be weakened, controlling the brightness of the folding screen to be weakened or kept unchanged.

In step S04, the status parameter of the folding screen includes a response operation applied to the folding screen, where the response operation includes a first preset operation and a second preset operation; the state of the folded screen also includes color.

Specifically, when the folding screen is continuously lighted, when a first preset operation acting on the folding screen is monitored, the first preset operation slides along a first preset direction, and the brightness of the folding screen is in direct proportion to the sliding distance of the first preset operation along the first preset direction;

or the first preset operation slides along the second preset direction, and the brightness of the folding screen is in inverse proportion to the sliding distance of the first preset operation along the second preset direction.

Specifically, the foldable screen is continuously lighted, and the first preset direction and the second preset direction are not absolutely opposite to each other. For example, when the foldable screen is held by a hand, the first predetermined direction may be rightward, upward or upward right. Correspondingly, the second preset direction may be leftward, downward or leftward and downward.

The folding screen is a touch screen, and the first preset operation is a single-point touch screen sliding operation.

In addition, when the folding screen is continuously lighted, when a second preset operation acting on the folding screen is monitored, the color of the folding screen is changed.

Specifically, the second preset operation is a single-point touch screen operation. When the folding screen is continuously lightened, the color of the folding screen changes at any position acted by the second preset operation. For example, the folding screen can display a plurality of lighting colors, wherein the default color is white, and the colors can also comprise red, yellow and the like. And setting a plurality of colors in sequence, such as white, yellow, red, blue and the like in sequence, monitoring a second preset operation, namely changing the color of the folding screen from white to yellow, monitoring another second preset operation, and changing the color of the folding screen from yellow to red in a circulating manner.

According to the night lamp illumination method based on the folding screen, provided by the invention, the night lamp illumination conditions are sequentially judged through night lamp mode starting, folding screen bending angle sensing and folding screen ambient illumination intensity monitoring, so that the night lamp illumination mode of the folding screen is convenient to operate and use, and the electric energy is saved. The method for illuminating the folding screen night lamp is convenient to operate and use and saves electric energy.

Referring to fig. 2, the present invention further provides a night light illumination device 100 based on a folding screen, including:

the switch module 10 is used for receiving the starting operation of a night lamp illumination mode of the folding screen;

the bending angle sensing module 20 is used for acquiring the bending angle of the folding screen;

and the processor module 30 is used for triggering the lighting of the folding screen and adjusting the state of the folding screen according to the state parameters of the folding screen when the bending angle of the folding screen meets the awakening condition.

Specifically, be provided with switch module 10 on the folding screen, switch module 10 places or is the solitary button that sets up in folding screen one side with regional placing such as functional options as WIFI, bluetooth, flashlight. The night light illumination switch module 10 is turned on and the bending angle sensing module 20 and the processor module 30 enter a standby state.

The processor module 30 receives monitoring information of the bending angle sensing module 20, and when the angle sensing module 20 monitors that the bending angle of the folding screen meets the awakening condition, the processor module 30 triggers the folding screen to light up; when the bending angle sensing module 20 monitors that the bending angle of the folding screen does not meet the awakening condition, the processor module 30 turns off the folding screen. It can be understood that, after the foldable screen is lighted, when the bending angle sensing module 20 detects that the bending angle of the foldable screen changes and does not satisfy the awakening condition any more, the foldable screen is turned off.

In this embodiment, the wake-up condition is that the preset angle range is 30 ° to 60 ° within the preset angle range of the folded screen being lit. The preset angle range is set to be 30-60 degrees, so that the preset angle range is large, on one hand, the folding screen is convenient to light, on the other hand, the two ends of the folding screen can form stable support after being bent, and the angle can be adjusted within a certain range.

Night-light lighting device 100 based on folding screen still includes light intensity monitoring module, and folding screen state parameter includes the light intensity of folding screen surrounding environment, and folding screen state includes the luminance of folding screen, and light intensity monitoring module is used for monitoring the light intensity of folding screen surrounding environment.

The processor module 30 adjusts the state of the folding screen according to the state parameters of the folding screen, including: the processor module 30 receives the light intensity monitored by the light intensity monitoring module and adjusts the brightness of the folding screen according to the light intensity.

Specifically, when the light intensity monitored by the light intensity monitoring module received by the processor module 30 is greater than or equal to the preset light intensity value of the processor module 30, the processor module controls the folding screen to be extinguished. That is, the light intensity of the folded ambient environment meets the normal requirement, and the folded environment does not need to be lightened so as to save electric energy.

When the light intensity monitored by the light intensity monitoring module received by the processor module 30 is smaller than the preset light intensity value of the processor module 30, the processor module 30 controls the folding screen to be continuously lightened. That is, the light intensity of the folded surrounding environment cannot meet the normal requirement, and the light supplement needs to be continuously lightened.

In addition, when the folding screen is continuously lightened, the processor module enables the brightness of the folding screen to be changed along with the change of the light intensity. Specifically, when the processor module 30 receives that the light intensity of the ambient environment where the folding screen is located, which is monitored by the light intensity monitoring module, is increased and is not greater than the preset light intensity, the processor module 30 controls the brightness of the folding screen to be continuously increased; when the processor module 30 receives that the light intensity of the ambient environment where the folding screen is located, which is monitored by the light intensity monitoring module, is weakened, the processor module 30 controls the brightness of the folding screen to be weakened or kept unchanged.

The night light illumination device 100 based on the folding screen further comprises a response module, wherein the response module is used for receiving response operation acting on the folding screen, and the response operation comprises a first preset operation and a second preset operation; the state parameter of the folding screen includes a response operation applied to the folding screen, and the state of the folding screen also includes a color.

When the processor module 30 receives a first preset operation of the response module, and the first preset operation slides along a first preset direction, the processor module 30 makes the brightness of the folding screen in direct proportion to the sliding distance of the first preset operation along the first preset direction;

or the first preset operation slides along the second preset direction, the processor module 30 makes the brightness of the folding screen and the sliding distance of the first preset operation along the second preset direction be in inverse proportion.

When the processor module 30 receives a second preset operation of the response module, the processor module 30 causes the color of the folded screen to change.

Specifically, when the folding screen is continuously lighted, the second preset operation is applied to any position of the folding screen, and the color of the folding screen is changed. For example, the folding screen can display a plurality of lighting colors, wherein the default color is white, and the colors can also comprise red, yellow and the like. And (3) setting a plurality of colors in sequence, such as white, yellow, red, blue and the like in sequence, monitoring a second preset operation, changing the color of the folding screen from white to yellow, monitoring a second preset operation again, changing the color from yellow to red, and repeating the steps.

According to the night lamp illumination device 100 based on the folding screen, the night lamp mode is started through the switch module 10, the bending angle sensing module 20 monitors the bending angle of the folding screen, the light intensity sensing module monitors the ambient illumination intensity of the folding screen, and the processor module 30 sequentially judges the illumination condition of the night lamp, so that the night lamp illumination mode of the folding screen is convenient to operate and use, and the electric energy is saved. The folding screen night lamp lighting system provided by the invention is convenient to operate and use and saves electric energy.

Referring to fig. 3, the present invention further provides a night light illumination terminal 200 based on a folding screen, including:

a memory 201 for storing one or more computer programs;

a processor module 202;

when executed by the processor module 202, the one or more computer programs in the memory 201 cause the processor module 202 to implement a folding screen based night light illumination method.

The memory 201 is a readable storage medium that can be used to store software programs, computer-executable programs, and modules. The memory 201 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to use of the night light illumination terminal based on the folding screen, and the like. Further, the memory 201 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device.

The processor module 202 runs a program corresponding to the executable program code by reading the executable program code stored in the memory 201 for performing:

receiving the starting operation of a night lamp illumination mode of the folding screen;

acquiring a bending angle of the folding screen;

when the bending angle of the folding screen meets the awakening condition, triggering the folding screen to be lightened;

and adjusting the state of the folding screen according to the state parameters of the folding screen.

The terminal 200 based on the folding screen night lamp illumination provided by the invention can ensure that the folding screen night lamp illumination 100 is convenient to use and saves electric energy.

To achieve the above embodiments, the present application also proposes a readable storage medium, which when executed by a processor module of a folding screen based night light illumination terminal, enables the folding screen based night light illumination terminal to perform a folding screen based night light illumination method, the method comprising:

receiving the starting operation of a night lamp illumination mode of the folding screen;

acquiring a bending angle of the folding screen;

when the bending angle of the folding screen meets the awakening condition, triggering the folding screen to be lightened;

and adjusting the state of the folding screen according to the state parameters of the folding screen.

When the computer program stored on the computer storage medium is executed by the processor module of the folding-screen-based night light illumination terminal, the folding-screen-based night light illumination terminal is enabled to further execute the folding-screen-based night light illumination method in any of the embodiments or implementations described above. The readable storage medium provided by the invention can facilitate the use of the night lamp illumination terminal 200 based on the folding screen and save electric energy.

The invention is not limited solely to that described in the specification and embodiments, and additional advantages and modifications will readily occur to those skilled in the art, so that the invention is not limited to the specific details, representative apparatus, and illustrative examples shown and described herein, without departing from the spirit and scope of the general concept as defined by the appended claims and their equivalents.

Claims (10)

1. A method of night light illumination based on a folding screen, the method comprising:

receiving the starting operation of a night lamp illumination mode of the folding screen;

obtaining a bending angle of the folding screen;

triggering the folding screen to be lightened when the bending angle of the folding screen is monitored to meet the awakening condition;

and adjusting the state of the folding screen according to the state parameters of the folding screen.

2. The method for folded screen night light based illumination of claim 1, wherein the step of triggering illumination of the folded screen when the angle of bending of the folded screen is monitored to satisfy a wake up condition further comprises, after the step of:

when the bending angle does not meet the awakening condition, controlling the folding screen to be turned off; the awakening condition is within a preset angle range of the lighting of the folding screen.

3. The method for folded screen night light based illumination of claim 1, wherein the state of the folded screen comprises a brightness of the folded screen, the state parameter comprises a light intensity of an ambient environment in which the folded screen is located, and adjusting the state of the folded screen according to the state parameter of the folded screen comprises:

monitoring the light intensity of the surrounding environment where the folding screen is located;

adjusting the brightness of the folding screen according to the light intensity;

when the monitored light intensity is greater than or equal to a preset light intensity value, controlling the folding screen to be extinguished;

and when the monitored light intensity is smaller than a preset light intensity value, controlling the folding screen to be continuously lightened.

4. The method for folding screen night light based illumination of claim 3, further comprising: the state of the folding screen also comprises color, the state parameters of the folding screen comprise response operation acted on the folding screen, and the response operation comprises first preset operation and second preset operation; the adjusting the state of the folding screen according to the state parameter of the folding screen comprises:

when a first preset operation acting on the folding screen is monitored,

the first preset operation slides along a first preset direction, and the brightness of the folding screen is in direct proportion to the sliding distance of the first preset operation along the first preset direction;

or the first preset operation slides along a second preset direction, and the brightness of the folding screen is in inverse proportion to the sliding distance of the first preset operation along the second preset direction;

when a second preset operation acting on the folding screen is monitored, the color of the folding screen is changed.

5. A night-light lighting device based on a folding screen, comprising:

the switch module is used for receiving the starting operation of the night lamp illumination mode of the folding screen;

the bending angle sensing module is used for acquiring the bending angle of the folding screen;

and the processor module triggers the lighting of the folding screen and adjusts the state of the folding screen according to the state parameters of the folding screen when the bending angle of the folding screen is monitored to meet the awakening condition.

6. A night-light illumination device based on a folding screen as set forth in claim 5, wherein the processor module triggers the folding screen to extinguish when the angle of bending of the folding screen by the bending angle sensing module changes and the wake-up condition is no longer satisfied; the awakening condition is within a preset angle range of the lighting of the folding screen.

7. A night-light folding screen based illumination device as claimed in claim 5, further comprising:

the folding screen state parameter comprises the light intensity of the environment around the folding screen, the folding screen state comprises the brightness of the folding screen, and the light intensity monitoring module is used for monitoring the light intensity of the environment around the folding screen;

the processor module adjusts the state of the folding screen according to the state parameters of the folding screen, and the state adjustment comprises the following steps: the processor module receives the light intensity monitored by the light intensity monitoring module and adjusts the brightness of the folding screen according to the light intensity;

when the light intensity monitored by the light intensity monitoring module received by the processor module is greater than or equal to a preset light intensity value of the processor module, the processor module controls the folding screen to be turned off;

and when the light intensity monitored by the light intensity monitoring module received by the processor module is smaller than the preset light intensity value of the processor module, the processor module controls the folding screen to be continuously lightened.

8. A night-light folding screen based illumination device as claimed in claim 7, further comprising:

the response module is used for responding to response operation acted on the folding screen, and the response operation comprises a first preset operation and a second preset operation; the state parameters of the folding screen comprise response operations acting on the folding screen, and the state of the folding screen also comprises color;

when the processor module receives a first preset operation of the response module,

the processor module enables the brightness of the folding screen to be in direct proportion to the sliding distance of the first preset operation along the first preset direction;

or the first preset operation slides along a second preset direction, and the processor module enables the brightness of the folding screen to be in inverse proportion to the sliding distance of the first preset operation along the second preset direction;

when the processor module receives a second preset operation of the response module, the processor module changes the color of the folding screen.

9. A folding screen based night light illumination terminal comprising a memory and a processor module, the memory storing a computer program, wherein the processor module when executing the computer program implements the steps of the method of any of claims 1 to 4.

10. A readable storage medium, on which a computer program is stored, which, when being executed by a processor module, carries out the steps of the method of any one of claims 1 to 4.

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