CN110493450B - Screen on-off method, folding screen terminal and computer readable storage medium - Google Patents

Abstract

The embodiment of the invention discloses a screen on/off method, which is applied to a folding screen terminal and comprises the following steps: when the current screen is in a bright screen state and no touch signal is collected in a first time period, the first screen sends a screen-off instruction to the second screen according to a second time period; and when the second screen receives the screen-off instruction sent by the first screen, controlling the first screen and/or the second screen to enter a screen-off state according to the screen-off instruction. The method for turning on and off the screen provided by the embodiment of the invention can realize the effect of automatically controlling the turning on and off the screen of the folding screen terminal, has low cost and convenient use, and can bring better experience to users.

Description

Screen on-off method, folding screen terminal and computer readable storage medium

Technical Field

The invention relates to the technical field of communication, in particular to a screen on/off method, a folding screen terminal and a computer readable storage medium.

Background

With the rapid development of communication network technology, terminals with touch screens, such as mobile phones and tablet computers, have become more and more popular in people's lives. Among them, a terminal with dual touch screens, that is, a folding screen terminal, becomes a mainstream product in the market due to its good interactive performance. The folding screen terminal is equivalently provided with two touch screens on one intelligent terminal. Compared with a single touch screen terminal, the folding screen terminal can bring more electric energy consumption during working, and in order to reduce the electric energy consumption, the screen can be quickly turned off when a user does not use the terminal equipment. Meanwhile, when the user uses the terminal, it is also required to be able to quickly light up the screen.

At present, the on-off screen mode of a double touch screen terminal mainly has two modes: the first mode is realized by manually clicking the Power key, and the mode needs to manually click the Power key on each screen, so that the operation is complicated, and the performance of man-machine interaction is reduced. The second mode is to judge whether to light or extinguish the screen by acquiring the folding angle, namely the folding degree between the two touch screens, and the mode needs to be realized by adding an angle judgment sensor, so that the hardware investment cost is increased.

Disclosure of Invention

In view of this, embodiments of the present invention provide a method for turning on and off a screen of a folding screen terminal, and a computer-readable storage medium, which are low in cost and superior in interaction performance.

In order to achieve the above purpose, the technical solution of the embodiment of the present invention is realized as follows:

a screen on/off method is applied to a folding screen terminal, and comprises the following steps: when the current screen is in a bright screen state and no touch signal is collected in a first time period, controlling the first screen to send a screen-off instruction to the second screen according to a second time period; and when the second screen receives the screen-off instruction sent by the first screen, controlling the first screen and/or the second screen to enter a screen-off state according to the screen-off instruction.

Wherein, the controlling the first screen to send the screen-off instruction to the second screen according to the second time period includes: and controlling the first screen to send a screen-off instruction to the second screen through a HotKnot wireless communication mode according to a second time period.

Wherein, after controlling the first screen to send the screen-off instruction to the second screen according to the second time period, the method further comprises: when the second screen does not receive the screen-off instruction sent by the first screen, judging whether the first screen or the second screen receives a touch signal; when the first screen or the second screen is determined to receive a touch signal, controlling the first screen to stop sending a screen-off instruction to the second screen; and when determining that the first screen and the second screen do not receive the touch signal, controlling the first screen to continue to send the screen-off instruction to the second screen according to the second time period.

Wherein, the controlling the first screen and/or the second screen to enter the screen-off state according to the screen-off instruction comprises: detecting whether the first screen and the second screen are in a handheld state and face upwards through a sensor; and controlling the first screen or the second screen which is not in a handheld state and/or does not face upwards to enter a screen-off state according to the screen-off instruction.

A screen on/off method is applied to a folding screen terminal, and comprises the following steps: when the current screen-off state is determined, controlling the first screen to send a screen-off instruction to the second screen according to a third time period; when the second screen receives the screen-off instruction and meets the set conditions, the first screen and the second screen are controlled to keep a screen-off state; otherwise, controlling the first screen and/or the second screen to enter a bright screen state according to the current display mode.

Wherein, the controlling the first screen to send the screen-off instruction to the second screen according to the third time period includes: and controlling the first screen to send a screen-off instruction to the second screen in a HotKnot wireless communication mode according to a third time period.

Wherein, the second screen receiving the screen-off instruction accords with the setting condition and includes: and the second screen receives the screen turn-off instruction for n times continuously, wherein n is greater than 1 and not greater than the total times of sending the screen turn-off instruction to the second screen by the first screen according to the third time period.

Wherein, after the second screen receives when the instruction of going out the screen accords with the setting condition, still include: and controlling the first screen to stop sending a screen-off instruction to the second screen, and returning to the step that the first screen sends the screen-off instruction to the second screen according to a third time period after waiting for a fourth time period.

Wherein the controlling the first screen and/or the second screen to enter the bright screen state according to the current display mode comprises: if the current display mode is the single-screen mode, controlling the first screen or the second screen to enter a bright screen state; and if the current display mode is a double-screen mode, controlling the first screen and the second screen to simultaneously enter a bright screen state.

A folding screen terminal comprises a memory, a processor and a computer program stored in the memory for running, wherein the processor executes the computer program to realize the screen on/off method according to any embodiment of the invention.

A computer-readable storage medium, on which a screen-on/off program is stored, and when executed by a processor, the screen-on/off program implements a screen-on/off method according to any embodiment of the present invention.

According to the method for turning on and off the screen, the folding screen terminal and the computer readable storage medium provided by the embodiment of the invention, when the current screen is in the turning-on state and no touch signal is collected in the first time period, the first screen is controlled to send a screen turning-off instruction to the second screen according to the second time period; the second screen is received what first screen sent when going out the screen instruction, according to go out screen instruction control first screen and/or the second screen gets into the state of going out the screen, through according to first screen with when the touch signal was not gathered to the second screen, send the mode of going out the screen instruction realize right first screen with the automatic control of brightening the screen of going out of second screen need not additionally to increase hardware components and parts such as angle decision sensor, and need not user manual operation and can realize brightening the control of going out the screen, and with low costs, and easy operation, user experience is good.

Drawings

Fig. 1 is a schematic flow chart of a method for turning on and off a screen according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of a screen turning-on and turning-off method according to another embodiment of the present invention;

fig. 3 is a schematic flowchart illustrating a screen turning-on and turning-off method according to another embodiment of the present invention;

fig. 4 is a schematic flowchart illustrating a method for turning on and off a screen according to another embodiment of the present invention;

fig. 5 is a schematic flowchart of a method for turning off a screen of a mobile phone according to an alternative embodiment of the present invention;

fig. 6 is a schematic flowchart of a method for lighting a screen of a mobile phone according to an alternative embodiment of the present invention;

fig. 7 is a schematic structural diagram of a folding screen terminal according to an embodiment of the present invention.

Detailed Description

The invention will be described in further detail with reference to the following drawings and specific embodiments.

As shown in fig. 1, a schematic flow chart of a method for turning on and off a screen according to an embodiment of the present invention is shown, where the method includes:

step 11: when the current screen is in a bright screen state and no touch signal is collected in a first time period, controlling the first screen to send a screen-off instruction to the second screen according to a second time period;

and when the folding screen terminal determines that the folding screen terminal is in a bright screen state at present and does not acquire a touch signal in a first time period, sending a screen-off instruction to the second screen through the first screen according to a second time period. Here, the first time period and the second time period may be respectively preset time periods, or may be set to be adjusted based on an instruction received from a user. As an implementation manner, the user may set the first time period according to the habit of using the terminal, for example, when the user wants to suspend using the terminal and then make the terminal enter the screen-off state as soon as possible, a shorter first time period, such as 3 minutes, may be set; when the user wishes to suspend the use of the terminal and then leave the terminal in the off-screen state for a longer period of time, a longer first time period, such as 10 minutes, may be set. The first time period can be adjusted to achieve personalized customization, and user experience is improved. The terminal can be a mobile phone, a computer and the like.

As an implementation manner, the second time period is a preset time period, the second time period may be less than 1 second, for example, 0.5 second or 0.8 second, and the setting of the shorter second time period may enable the terminal to quickly enter the screen-off state, so as to reduce power consumption.

Step 12: and when the second screen receives the screen-off instruction sent by the first screen, controlling the first screen and/or the second screen to enter a screen-off state according to the screen-off instruction.

And when the folding screen terminal determines that the second screen receives the screen-off instruction sent by the first screen, the folding screen terminal controls the first screen and/or the second screen to enter a screen-off state according to the screen-off instruction. As an embodiment, the sending and receiving of the screen-off command may be controlled by the same controller, or may be controlled by two controllers respectively. When the two controllers are respectively controlled, one of the controllers can be a controller of the first screen and used for correspondingly realizing the sending or receiving of the screen-off instruction by the first screen, and the other controller can be a controller of the second screen and used for correspondingly realizing the sending or receiving of the screen-off instruction by the second screen. As another embodiment, the same controller is a main controller, and is in communication connection with the first screen and the second screen through the main controller, and the main controller uniformly controls the first screen and/or the second screen to enter the screen-off state according to the current states of the first screen and the second screen, whether a touch signal is received, and whether a screen-off instruction is received.

In the embodiment of the invention, when the first screen and the second screen do not acquire the touch signal, the foldable screen terminal realizes the automatic screen-off control of the first screen and the second screen by sending the screen-off instruction, does not need to additionally add hardware components such as an angle judgment sensor, and can realize the screen-on and screen-off control without manual operation of a user, and has the advantages of low cost, simple operation and good user experience.

In step 11, the controlling the first screen to send the screen-off instruction to the second screen according to the second time period includes: and controlling the first screen to send the screen-off instruction to the second screen in a HotKnot wireless communication mode according to the second time period.

Here, the first screen and the second screen may be capacitive screens, and the mutual communication between the first screen and the second screen is directly achieved by using a HotKnot wireless communication function of the capacitive screens. As an implementation manner, the first screen and the second screen are capacitive screens, when the distance between the first screen and the second screen is less than 2CM, the first screen may transmit the screen-off instruction to the second screen in a HotKnot wireless communication manner, and the screen-off control of the first screen and/or the second screen is realized according to the state that the second screen receives the screen-off instruction. When the HotKnot wireless communication technology is adopted to realize the screen extinguishing control of the first screen and/or the second screen, the first screen and the second screen can be utilized to directly realize wireless communication, so that additional communication hardware is not required to be arranged, and the hardware cost is further reduced.

Referring to fig. 2, in step 11, after the controlling the first screen to send the screen-off instruction to the second screen according to the second time period, the method further includes:

step 21: judging whether the second screen receives the screen-off instruction sent by the first screen;

step 22: when the second screen does not receive the screen-off instruction sent by the first screen, judging whether the first screen and the second screen receive touch signals;

step 23: and when the first screen or the second screen receives a touch signal, controlling the first screen to stop sending the screen-off instruction to the second screen.

Step 24: and when determining that the first screen and the second screen do not receive the touch signal, controlling the first screen to continue to send the screen-off instruction to the second screen according to the second time period. And after the first screen continues to send a screen-off instruction to the second screen according to the second time period, returning to the step 21, and judging whether the second screen receives the screen-off instruction sent by the first screen.

In the above embodiment of the present invention, after the first screen sends the screen-off instruction to the second screen according to the second time period, it is further determined whether the first screen and the second screen receive the touch signal, and when the touch signal is received, it indicates that the user is still operating the terminal, the user has a demand for the terminal, and the terminal cannot enter the screen-off state for a while, so that the first screen stops sending the screen-off instruction to the second screen, and thus, waste of signaling resources can be avoided; when the touch signal is not received, the user is indicated to suspend the operation of the terminal, the user does not have the requirement for using the terminal for a while, and the first screen can continue to send the screen-off instruction to the second screen according to the second time period, so that the screen can be turned off quickly, and the energy consumption of the screen is saved.

In one embodiment, the controlling the first screen and/or the second screen to enter the screen-off state according to the screen-off instruction includes: detecting whether the first screen and the second screen are in a handheld state and face upwards through a sensor; and controlling the first screen or the second screen which is not in a handheld state and/or does not face upwards to enter a screen-off state according to the screen-off instruction.

Here, after the second screen receives the screen-off instruction sent by the first screen, if it is detected that the terminal is still in the handheld state and the second screen is still in the state of facing upward, it indicates that the user still has a need to use the second screen of the terminal, for example, the user still watches an electronic book through the second screen, at this time, the screen-off instruction only controls the first screen which is not in the handheld state and/or is not facing upward to enter the screen-off state, and keeps the second screen in the screen-on state. The embodiment saves energy consumption, does not influence the use of the terminal by a user, and meets the energy-saving requirements under different scenes.

As shown in fig. 3, a schematic flow chart of a method for turning on and off a screen according to another embodiment of the present invention is provided, where the method includes:

step 31: when the current screen-off state is determined, controlling the first screen to send a screen-off instruction to the second screen according to a third time period;

step 32: when the second screen receives the screen-off instruction and meets the set conditions, the first screen and the second screen are controlled to keep a screen-off state; otherwise, controlling the first screen and/or the second screen to enter a bright screen state according to the current display mode.

And when the folding screen terminal determines that the folding screen terminal is in the screen-off state at present, sending a screen-off instruction to the second screen through the first screen according to the third time period. Here, the third time period may be a preset time period, or may be set to be adjusted based on an instruction received from a user. In one embodiment, the third time period is less than 1 second, for example, 0.5 second or 0.8 second, and the setting of the third time period is short, so that the terminal can quickly enter the bright screen state.

When the folding screen terminal determines that the screen-off instruction received by the second screen meets the set condition, the folding screen terminal controls the first screen and the second screen to keep the screen-off state; otherwise, controlling the first screen and/or the second screen to enter a bright screen state according to the current display mode. As an embodiment, the sending and receiving of the screen-off command may be controlled by the same controller, or may be controlled by two controllers respectively. When the two controllers are respectively controlled, one of the controllers can be a controller of the first screen and used for correspondingly realizing the sending or receiving of the screen-off instruction by the first screen, and the other controller can be a controller of the second screen and used for correspondingly realizing the sending or receiving of the screen-off instruction by the second screen. As another embodiment, the same controller is a main controller, and is in communication connection with the first screen and the second screen through the main controller, and the main controller uniformly controls the first screen and/or the second screen to enter a screen-on state according to the current states of the first screen and the second screen, whether a touch signal is received, and whether a screen-off instruction is received.

In the embodiment of the invention, when the first screen and the second screen are in the screen-off state, the folding screen terminal realizes the automatic screen-on control of the first screen and/or the second screen by sending the screen-off instruction, does not need to additionally add hardware components such as an angle judgment sensor, can realize the screen-on and screen-off control without manual operation of a user, and has the advantages of low cost, simple operation and good user experience.

In one embodiment, the controlling the first screen to send the screen-off instruction to the second screen according to the third time period includes: and controlling the first screen to send a screen-off instruction to the second screen in a HotKnot wireless communication mode according to the third time period.

Here, the first screen and the second screen may be capacitive screens, and the mutual communication between the first screen and the second screen is directly achieved by using a HotKnot wireless communication function of the capacitive screens. As an implementation manner, the first screen and the second screen are capacitive screens, when the distance between the first screen and the second screen is less than 2CM, the first screen may send the screen-off instruction to the second screen in a HotKnot wireless communication manner, and the screen-on control of the first screen and/or the second screen is realized according to the state that the second screen receives the screen-off instruction. When the hot wireless communication technology is adopted to realize the screen-on control of the first screen and/or the second screen, the first screen and the second screen can be utilized to directly realize wireless communication, so that additional communication hardware is not required to be arranged, and the hardware cost is further reduced.

Referring to fig. 4, step 31, after the first screen sends a screen-off instruction to the second screen according to a third time period, the method further includes:

step 41: and judging whether the screen turn-off instruction received by the second screen meets a set condition. The second screen receiving that the screen-off instruction accords with the set condition includes: and the second screen receives the screen turn-off instruction for n times continuously, wherein n is greater than 1 and not greater than the total times of sending the screen turn-off instruction to the second screen by the first screen according to a third time period. As an implementation manner, the total number of times of sending the screen-off instruction is not less than 10, for example, 15 or 20 times, the sending time corresponding to the larger total number of times is inevitably longer, and the longer sending time can enable the terminal to quickly acquire the screen-on demand, and timely control the first screen and/or the second screen to enter the screen-on state according to the current display mode.

Step 42: and when the fact that the screen turn-off instruction received by the second screen meets the set condition is determined, the first screen stops sending the screen turn-off instruction to the second screen, and after waiting for a fourth time period, the step 31 is returned, and the first screen sends the screen turn-off instruction to the second screen according to a third time period. When the fact that the screen turn-off instruction received by the second screen meets the set condition is determined, the first screen stops sending the screen turn-off instruction to the second screen, and therefore signaling resources can be saved.

Step 43: and when the fact that the screen turn-off instruction received by the second screen does not accord with the set condition is determined, judging whether the current display mode is the single-screen mode or not, and controlling the first screen and/or the second screen to enter a screen-on state according to the judgment result of the current display mode. The step of controlling the first screen and/or the second screen to enter the bright screen state according to the current display mode comprises the following steps:

step 44: if the current display mode is the single-screen mode, controlling the first screen or the second screen to enter a bright screen state;

step 45: and if the current display mode is a double-screen mode, controlling the first screen and the second screen to simultaneously enter a bright screen state.

The single-screen mode is a mode in which only the first screen or only the second screen displays information content, for example, only the first screen or only the second screen displays picture or menu information. The dual-screen mode is a mode for displaying information content on the first screen and the second screen at the same time, and the information content can be picture information, interface application information and the like. The display mode can be preset by a user, so that the user can realize the personalized customization of the terminal.

Wherein, the judgment of the single-screen mode may be: detecting whether the first screen or the second screen is in a handheld state and is right side up through a sensor; when the first screen or the second screen is in a handheld state and faces upwards, it can be confirmed that the folding screen terminal is currently in a single-screen state. At the moment, the first screen or the second screen with the right side facing upwards enters a bright screen state. Here, whether the first screen or the second screen is in a hand-held state and is right-side up is detected by a sensor, which may be a speed sensor and/or a gravity sensor. As a specific implementation manner, when it is determined that the screen-off instruction received by the second screen does not meet the setting condition, if it is detected that the terminal is still in the handheld state and the second screen is still in the state of being right-side-up through the speed sensor and the gravity sensor, it indicates that the user only needs to use the second screen of the terminal, for example, the user only needs to watch an electronic book through the second screen, and only controls the second screen to enter the screen-on state.

In order to make the embodiment of the present invention more clear, the method for turning on and off the screen according to the embodiment of the present invention will be further described with reference to two specific embodiments:

the first embodiment is as follows:

in this embodiment, a screen turn-off method of a mobile phone is taken as an example for explanation, please refer to fig. 5, and a screen turn-off process of the mobile phone includes the following steps:

s51: when the first screen and the second screen of the mobile phone are in a bright screen state, and after no touch signal is collected on the first screen and the second screen within t1, the mobile phone enters a hotKnot instruction detection mode. The HotKnot instruction detection mode is a mode for sending a screen-off instruction through the HotKnot technology. Wherein, t1 is the first time period parameter preset by the user according to the requirement, which is 10 minutes.

S52: the first screen sends a screen-off instruction to the second screen according to a certain period t2 which is 1 second; and t2 is a second time period parameter preset by the user according to the requirement, wherein t is 1 second. Wherein, the sending of the screen-off instruction and the control of the screen are executed by the same controller.

S53: judging whether the second screen receives a screen-off instruction or not;

s54: when the second screen receives a screen-off instruction, turning off the first screen and the second screen;

s55: when the second screen does not receive the screen-off instruction, judging whether the first screen and the second screen receive the touch signal or not;

s56: when the first screen and the second screen receive the touch signals, exiting the HotKnot instruction detection mode; otherwise, the execution returns to step S52.

In the embodiment of the invention, when the mobile phone does not acquire the touch signals from the first screen and the second screen, the mobile phone realizes the automatic screen-off control of the first screen and the second screen by sending the screen-off instruction, and the screen-on and screen-off control can be realized without additionally adding hardware components such as an angle judgment sensor and without manual operation of a user, so that the cost is low, the operation is simple, and the user experience is good.

Example two:

in this embodiment, a screen-up method of a mobile phone is taken as an example for explanation, please refer to fig. 6, and a screen-up process of the mobile phone includes the following steps:

s61: when the first screen and the second screen of the mobile phone are both in a screen-off state, the first screen enters a HotKnot instruction detection mode; the HotKnot instruction detection mode is a mode for sending a screen-off instruction through the HotKnot technology.

S62: the first screen continuously sends a screen-off instruction to the second screen for 15 times according to a period t3 which is 1 second; wherein, t3 is 1 second, and the number of sending times is 15, and is a third time period parameter preset by the user according to the requirement. Here, the transmission of the screen-off command and the control of the screen are performed by the same controller.

S63: judging whether the second screen receives a screen-off instruction for 1< n > or less than or equal to 15 times continuously;

s64: if the second screen receives the screen-off instruction for 15 times continuously, the screen-off state is kept, the HotKnot instruction detection mode is exited, and the second screen is started after the next period comes;

s65: if the second screen does not receive the screen-off instruction for 1< n ≦ 15 times continuously, judging whether the second screen is in the single-screen mode currently; the single-screen mode is that only one screen of the first screen and the second screen is displayed.

S66: if the judgment result is not in the single-pass mode, controlling to lighten the first screen and the second screen; otherwise, go to S67;

s67: the control lights the first screen or the second screen.

In the embodiment of the invention, when the first screen and the second screen are in the screen-off state, the mobile phone realizes the automatic screen-on control of the first screen and/or the second screen by sending the screen-off instruction, and the screen-on and screen-off control can be realized without additionally adding hardware components such as an angle judgment sensor and the like and without manual operation of a user, so that the cost is low, the operation is simple, and the user experience is good.

Another embodiment of the present invention further provides a folding screen terminal, please refer to fig. 7, which includes a memory 71, a processor 72, and a computer program stored in the memory 71 and running on the memory, where the processor 72 executes the computer program and implements the following steps: when the current screen is in a bright screen state and no touch signal is collected in a first time period, controlling the first screen to send a screen-off instruction to the second screen according to a second time period; and when the second screen receives the screen-off instruction sent by the first screen, controlling the first screen and/or the second screen to enter a screen-off state according to the screen-off instruction.

Here, the processor 72, when executing the computer program, is further configured to: the controlling the first screen to send the screen-off instruction to the second screen according to the second time period includes: and controlling the first screen to send a screen-off instruction to the second screen through a HotKnot wireless communication mode according to a second time period.

Here, the processor 72, when executing the computer program, is further configured to: after controlling the first screen to send the screen-off instruction to the second screen according to the second time period, the method further includes: when the second screen does not receive the screen-off instruction sent by the first screen, judging whether the first screen or the second screen receives a touch signal; when the first screen or the second screen is determined to receive a touch signal, controlling the first screen to stop sending a screen-off instruction to the second screen; and when determining that the first screen and the second screen do not receive the touch signal, controlling the first screen to continue to send the screen-off instruction to the second screen according to the second time period.

Here, the processor 72, when executing the computer program, is further configured to: the controlling the first screen and/or the second screen to enter the screen-off state according to the screen-off instruction comprises: detecting whether the first screen and the second screen are in a handheld state and face upwards through a sensor; and controlling the first screen or the second screen which is not in a handheld state and/or does not face upwards to enter a screen-off state according to the screen-off instruction.

Here, the processor 72, when executing the computer program, is further configured to: when the current screen-off state is determined, the first screen sends a screen-off instruction to the second screen according to a third time period; when the second screen receives the screen-off instruction and meets the set conditions, the first screen and the second screen are controlled to keep a screen-off state; otherwise, controlling the first screen and/or the second screen to enter a bright screen state according to the current display mode.

Here, the processor 72, when executing the computer program, is further configured to: the controlling the first screen to send the screen-off instruction to the second screen according to the third time period includes: and controlling the first screen to send a screen-off instruction to the second screen in a HotKnot wireless communication mode according to a third time period.

Here, the processor 72, when executing the computer program, is further configured to: the second screen receiving that the screen-off instruction accords with the set condition includes: and the second screen receives the screen turn-off instruction for n times continuously, wherein n is greater than 1 and not greater than the total times of sending the screen turn-off instruction to the second screen by the first screen according to the third time period.

Here, the processor 72, when executing the computer program, is further configured to: after the second screen receives when the screen-off instruction accords with the set condition, the method further comprises the following steps: and controlling the first screen to stop sending a screen-off instruction to the second screen, and returning to the step that the first screen sends the screen-off instruction to the second screen according to a third time period after waiting for a fourth time period.

Here, the processor 72, when executing the computer program, is further configured to: the controlling the first screen and/or the second screen to enter the bright screen state according to the current display mode comprises: if the current display mode is the single-screen mode, controlling the first screen or the second screen to enter a bright screen state; and if the current display mode is a double-screen mode, controlling the first screen and the second screen to simultaneously enter a bright screen state.

The processor 72 illustrated in fig. 7 does not indicate that the number of the processors 72 is one, and in practical applications, the number of the processors 72 may be one or more; likewise, the memory 71 illustrated in fig. 7 does not indicate that the number of the memory 71 is one, and in practical applications, the number of the memory 71 may be one or more. Folding screen terminal still includes first screen and second screen, first screen with pivot formula connection or detachable connection between the second screen, first screen with the second screen has relative closed fold condition and the relative open-type state of opening.

Yet another embodiment of the present invention further provides a computer readable storage medium, for example, comprising a memory 71 storing a computer program, which can be executed by a processor 72 in the apparatus to perform the steps of the method. The computer storage medium can be FRAM, ROM, PROM, EPROM, EEPROM, Flash Memory, magnetic surface Memory, optical disk, or CD-ROM; or may be a variety of devices including one or any combination of the above memories, such as a mobile phone, computer, tablet device, personal digital assistant, etc.

A computer storage medium having a light-and-dark screen program stored thereon, the light-and-dark screen program being implemented by a processor to: when the current screen is in a bright screen state and no touch signal is collected in a first time period, controlling the first screen to send a screen-off instruction to the second screen according to a second time period; and when the second screen receives the screen-off instruction sent by the first screen, controlling the first screen and/or the second screen to enter a screen-off state according to the screen-off instruction.

Here, the processor, when executing the computer program, is further configured to: the controlling the first screen to send the screen-off instruction to the second screen according to the second time period includes: and controlling the first screen to send a screen-off instruction to the second screen through a HotKnot wireless communication mode according to a second time period.

Here, the processor, when executing the computer program, is further configured to: after controlling the first screen to send the screen-off instruction to the second screen according to the second time period, the method further includes: when the second screen does not receive the screen-off instruction sent by the first screen, judging whether the first screen or the second screen receives a touch signal; when the first screen or the second screen is determined to receive a touch signal, controlling the first screen to stop sending a screen-off instruction to the second screen; and when determining that the first screen and the second screen do not receive the touch signal, controlling the first screen to continue to send the screen-off instruction to the second screen according to the second time period.

Here, the processor, when executing the computer program, is further configured to: the controlling the first screen and/or the second screen to enter the screen-off state according to the screen-off instruction comprises: detecting whether the first screen and the second screen are in a handheld state and face upwards through a sensor; and controlling the first screen or the second screen which is not in a handheld state and/or does not face upwards to enter a screen-off state according to the screen-off instruction.

Here, the processor, when executing the computer program, is further configured to: when the current screen-off state is determined, controlling the first screen to send a screen-off instruction to the second screen according to a third time period; when the second screen receives the screen-off instruction and meets the set conditions, the first screen and the second screen are controlled to keep a screen-off state; otherwise, controlling the first screen and/or the second screen to enter a bright screen state according to the current display mode.

Here, the processor, when executing the computer program, is further configured to: the controlling the first screen to send the screen-off instruction to the second screen according to the third time period includes: and controlling the first screen to send a screen-off instruction to the second screen in a HotKnot wireless communication mode according to a third time period.

Here, the processor, when executing the computer program, is further configured to: the second screen receiving that the screen-off instruction accords with the set condition includes: and the second screen receives the screen turn-off instruction for n times continuously, wherein n is greater than 1 and not greater than the total times of sending the screen turn-off instruction to the second screen by the first screen according to the third time period.

Here, the processor, when executing the computer program, is further configured to: after the second screen receives when the screen-off instruction accords with the set condition, the method further comprises the following steps: and controlling the first screen to stop sending a screen-off instruction to the second screen, and returning to the step that the first screen sends the screen-off instruction to the second screen according to a third time period after waiting for a fourth time period.

Here, the processor, when executing the computer program, is further configured to: the controlling the first screen and/or the second screen to enter the bright screen state according to the current display mode comprises: if the current display mode is the single-screen mode, controlling the first screen or the second screen to enter a bright screen state; and if the current display mode is a double-screen mode, controlling the first screen and the second screen to simultaneously enter a bright screen state.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and scope of the present invention are included in the protection scope of the present invention.

Claims (9)

1. A screen on/off method is applied to a folding screen terminal and is characterized by comprising the following steps:

when the current screen is in a bright screen state and no touch signal is collected in a first time period, the first screen sends a screen-off instruction to the second screen according to a second time period;

when the second screen receives the screen-off instruction sent by the first screen, the first screen and/or the second screen are controlled to enter a screen-off state according to the screen-off instruction,

after the first screen sends the screen-off instruction to the second screen according to the second time period, the method further comprises the following steps:

when the second screen does not receive the screen-off instruction sent by the first screen, judging whether the first screen or the second screen receives a touch signal;

when the first screen or the second screen receives a touch signal, the first screen stops sending a screen-off instruction to the second screen;

and when determining that the first screen and the second screen do not receive the touch signal, the first screen continuously sends the screen-off instruction to the second screen according to the second time period.

2. The method for turning on and off the screen according to claim 1, wherein the sending of the screen turn-off instruction to the second screen by the first screen according to the second time period comprises: and the first screen sends a screen-off instruction to the second screen in a HotKnot wireless communication mode according to the second time period.

3. The screen turning-on and turning-off method according to claim 1, wherein the controlling the first screen and/or the second screen to enter the screen turning-off state according to the screen turning-off instruction comprises: detecting whether the first screen and the second screen are in a handheld state and face upwards through a sensor; and controlling the first screen or the second screen which is not in a handheld state and/or does not face upwards to enter a screen-off state according to the screen-off instruction.

4. A screen on/off method is applied to a folding screen terminal and is characterized by comprising the following steps:

when the current screen-off state is determined, the first screen sends a screen-off instruction to the second screen according to a third time period;

when the second screen receives the screen-off instruction and meets the set conditions, the first screen and the second screen are controlled to keep a screen-off state; otherwise, controlling the first screen and/or the second screen to enter a bright screen state according to the current display mode,

after the second screen receives when the screen-off instruction accords with the set condition, the method further comprises the following steps:

and the first screen stops sending a screen-off instruction to the second screen, and returns to the step that the first screen sends the screen-off instruction to the second screen according to a third time period after waiting for a fourth time period.

5. The method for turning on and off the screen according to claim 4, wherein the sending of the screen turn-off instruction to the second screen by the first screen according to the third time period comprises: and the first screen sends a screen-off instruction to the second screen in a HotKnot wireless communication mode according to the third time period.

6. The screen turning-on and turning-off method according to claim 4, wherein the receiving, by the second screen, the screen turning-off instruction meeting a set condition comprises: and the second screen receives the screen turn-off instruction for n times continuously, wherein n is greater than 1 and not greater than the total times of sending the screen turn-off instruction to the second screen by the first screen according to the third time period.

7. The screen brightening and extinguishing method according to claim 4, wherein the controlling the first screen and/or the second screen to enter the screen brightening state according to the current display mode comprises:

if the current display mode is the single-screen mode, controlling the first screen or the second screen to enter a bright screen state; and if the current display mode is a double-screen mode, controlling the first screen and the second screen to simultaneously enter a bright screen state.

8. A folding screen terminal comprising a memory, a processor and a computer program stored for execution on the memory, characterized in that: the processor, when executing the computer program, implements the method of turning on and off the screen as recited in any one of claims 1 to 7.

9. A computer-readable storage medium having stored thereon a bright-out screen program which, when executed by a processor, implements the bright-out screen method according to any one of claims 1 to 7.

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