CN107077314B - Electronic equipment - Google Patents

Abstract

The invention relates to the technical field of terminals, in particular to electronic equipment. The electronic equipment comprises a driving module, a first touch screen and a second touch screen; the method comprises the steps that a first touch screen receives touch control actions of a first user on the first touch screen, and first touch signals are generated; the driving module opens the touch permission of the second touch screen according to the first touch signal; the second touch screen receives a touch action of a second user on the second touch screen and generates a second touch signal; the driving module displays a first picture on the second touch screen according to the first touch signal and the second touch signal; the second touch screen receives a touch action of a second user on the second touch screen and generates a third touch signal; the driving module opens the touch control authority of the first touch screen according to the third touch control signal; the first touch screen receives a touch action of a first user on the first touch screen and generates a fourth touch signal; and the driving module displays a second picture on the first touch screen according to the third touch signal and the fourth touch signal. Thereby linking the two screens.

Description

Electronic equipment

Technical Field

The invention relates to the technical field of terminals, in particular to electronic equipment.

Background

The display screen is used as a display carrier of information and is widely applied to various industries and technical fields. For example, in the field of consumer electronics, a display screen may display screen content of a terminal, and an input operation of a user may be received to trigger the terminal to generate an action.

In response to diversified user demands, the prior art provides a multi-screen terminal, and a user can operate a first display screen of the multi-screen terminal to enable the first display screen to display corresponding screen contents. Or, the user can also operate the second display screen to make the second display screen display the corresponding picture content. Alternatively, different users may operate the first display screen and the second display screen simultaneously. No matter the user is positioned on any side of the display screen of the multi-screen terminal, the corresponding display screen can be operated to display the picture content.

In the process of implementing the invention, the inventor finds that the following problems exist in the related art: each display screen of the existing multi-screen terminal works independently, and linkage is lacked among different display screens, so that the picture content displayed by each display screen is lacked in correlation.

Disclosure of Invention

An object of the embodiments of the present invention is to provide an electronic device and a multi-screen linkage display method, which solve the technical problem of lack of linkage between different display screens in the prior art.

In order to solve the above technical problems, embodiments of the present invention provide the following technical solutions:

in a first aspect, an embodiment of the present invention provides an electronic device, where the electronic device includes a driving module, a first touch screen, and a second touch screen; in a first stage, the first touch screen receives a touch action of a first user on the first touch screen, generates a first touch signal and sends the first touch signal to the driving module; the driving module opens the touch permission of the second touch screen according to the first touch signal; the second touch screen receives a touch action of a second user on the second touch screen, generates a second touch signal and sends the second touch signal to the driving module; the driving module displays a first picture on the second touch screen according to the first touch signal and the second touch signal; in the second stage, the second touch screen receives the touch action of the second user on the second touch screen, generates a third touch signal and sends the third touch signal to the driving module; the driving module opens the touch control authority of the first touch screen according to the third touch control signal; the first touch screen receives a touch action of the first user on the first touch screen, generates a fourth touch signal and sends the second touch signal to the driving module; and the driving module displays a second picture on the first touch screen according to the third touch signal and the fourth touch signal.

In the embodiment of the invention, the driving module respectively controls the display of the first touch screen and the second touch screen according to the touch action of the user on the first touch screen and the touch action of the user on the second touch screen, and because the display of the first touch screen needs the participation of the touch action of the second touch screen to trigger and the display of the second touch screen needs the participation of the touch action of the first touch screen to trigger, the picture contents to be displayed by the first touch screen and the second touch screen are both restricted by each other, so that the linkage between the two screens is realized.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below. It is obvious that the drawings described below are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a schematic structural diagram of an electronic device in a flipped state according to an embodiment of the present invention;

FIG. 1a is a schematic front view of an external structure of an electronic device;

FIG. 1b is a schematic rear view of an external structure of an electronic device;

fig. 2 is a schematic block circuit diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention 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 invention and are not intended to limit the invention.

In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention 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 invention and are not intended to limit the invention.

In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Fig. 1 is a schematic structural diagram of an electronic device in a flipped state according to an embodiment of the present invention. As shown in fig. 1, the electronic device 10 includes a driving module (shown in fig. 2), a first touch screen 101, and a second touch screen 102. The electronic device 10 is in the flipped state at this time. The first touch screen 101 is disposed on the first side surface 10A of the electronic device 10, the second touch screen 102 is opposite to the first touch screen 101 and disposed on the second side surface 10B of the electronic device 10, the first touch screen 101 or the second touch screen 102 can be turned over by the turning shaft 103, and when a user needs to operate the first touch screen 101 or the second touch screen 102 on the same plane at the same time, the first touch screen 101 or the second touch screen 102 can be turned over to a proper plane around the turning shaft 103.

As shown in fig. 1a and 1b, in a normal use state of the electronic device 10, the first touch screen 101 is a front surface of the electronic device 10, and the second touch screen 102 is a back surface of the electronic device 10. The user can turn over the first touch screen 101 (the second touch screen 102) to a certain angle according to own needs to operate the dual screens simultaneously, or in order to avoid the problem that the operation area is too large and the operation area is not easy to master due to the fact that the dual screens are unfolded, the user can alternately switch and operate the first touch screen 101 or the second touch screen 102 when the dual screens of the electronic device are in a closed state.

When a user operates on the touch-sensitive surface of the first touch screen 101 or the second touch screen 102, a touch signal is distributed by the first touch screen 101 or the second touch screen 102. The touch sensitive surface may be a touch screen display, which may be a touch pad. The touch-sensitive surface serves as an input interface for user operations, and operations of a user on the touch-sensitive surface can be detected, wherein the operations can be single-clicking, double-clicking, sliding, long-pressing, dragging and the like on the touch-sensitive surface. Each operation by the user generates a certain pressure intensity on the touch-sensitive surface, which can be detected using various methods and various sensors or combinations of various sensors. For example, by detecting the magnitude of the change in capacitance of the touch-sensitive surface at the touch-sensitive surface, or by detecting the magnitude of the change in resistance of the touch-sensitive surface, or by detecting the magnitude of the change in capacitance and the magnitude of the change in resistance of the touch-sensitive surface, and so on. In the above process, the intensity of the pressure generated by the touch-sensitive surface is converted into an electrical signal by the sensor, so that the operation of the user on the corresponding area of the first touch screen 101 or the second touch screen 102 is distributed to a corresponding touch signal. The selection of touch screen types for different electronic devices is not the same. The designer can select the touch screen of the electronic equipment according to the business requirements.

As shown in fig. 2, the driving module 104 is electrically connected to the first touch screen 101 and the second touch screen 102, respectively. The driving module 104 performs denoising, amplification, analog-to-digital conversion, and the like on the signal transmitted by the first touch screen 101 or the second touch screen 102. In some embodiments, the driving module 104 may be a touch controller, and the touch controller may detect a touch action of a user on each touch screen and drive each touch screen to display the screen content. In some embodiments, the driving module 104 may include a touch controller and a processor, where the touch controller is connected to the processor, as described above, the touch controller may detect a touch action of a user on each touch screen and drive each touch screen to display a picture content, and the processor may further perform logic processing on a control signal transmitted by the touch controller, or send the control signal to the touch controller according to a preset logic, so as to control the display and the working state of the first touch screen or the second touch screen through the touch controller respectively. Here, the designer can decide the composition and working environment of the driving module 104 according to the business requirement, and the invention is not limited to the above-mentioned configuration of the driving module. In some embodiments, the processor of the driving module 104 may further access the peripheral circuits of the electronic device to obtain the operating information of the peripheral circuits, so as to better control the display and the operating state of each touch screen through the touch controller. For example, the processor may access a power supply system of the electronic device to obtain current power information of the electronic device, process the power information, and control on/off states of the touch screens through the touch controller according to preset logic.

In some embodiments, the processor may also be a Programmable Logic Controller (PLC) general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable Logic device, discrete Gate or transistor Logic, discrete hardware components, or any combination thereof. Also, the processor herein may be any conventional processor, controller, microcontroller, or state machine. A processor may also be implemented as a combination of computing devices, e.g., a combination of a DSP and a microprocessor, a plurality of microprocessors, one or more microprocessors in conjunction with a DSP core, or any other such configuration. And the designer selects the processor of the electronic equipment according to the business requirement.

When a user operates the electronic device, a first touch action is input on the touch-sensitive surface of the first touch screen 101, a second touch action is input on the touch-sensitive surface of the second touch screen 102, and the driving module 104 controls the display of the first touch screen 101 according to the first touch action and the second touch action, and controls the display of the second touch screen 102 according to the first touch action and the second touch action. The screen content displayed on the first touch panel 101 may be the same as the screen content displayed on the second touch panel 102, or may be displayed in a differentiated manner. The designer can determine the picture content displayed by each touch screen according to the service requirement. For example, the filling of materials requires a cooperation between the customer and the bank staff when handling banking. During the filling process of the data, the opening problem of the authority of the two parties is involved. The filling process of the data is divided into the following stages:

the first stage is as follows: the bank staff operates the first touch screen 101 to open the authority for the customer to complete the filling of the material on the second touch screen 102.

In the first stage process, the bank staff inputs a first touch action on the first touch screen 101, and the first touch screen 101 detects the first touch action and outputs a first touch signal. At this time, the customer inputs a second touch action on the second touch screen 102 in cooperation with the operation of the bank staff, and the second touch screen 102 detects the second touch action and outputs a second touch signal. The driving module 104 displays a data filling table on the second touch screen 102 according to the first touch signal and the second touch signal, so that the customer can complete the filling of the data on the second touch screen 102.

And a second stage: the customer operates the second touch screen 102 to open the right for the bank staff to complete the next data processing on the first touch screen 101.

In the second stage, the customer inputs the second touch action on the second touch screen 102, at this time, the bank staff inputs the first touch action on the first touch screen 101 in cooperation with the operation of the customer, and similarly, the driving module 104 displays a data filling table on the first touch screen 101 according to the first touch signal and the second touch signal, so that the bank staff can complete the next data processing.

Therefore, since the display of the first touch screen 101 needs to be triggered by the participation of the touch action of the second touch screen 102, and the display of the second touch screen 102 needs to be triggered by the participation of the touch action of the first touch screen 101, the screen contents to be displayed by the first touch screen 101 and the second touch screen 102 are both restricted by each other, so as to achieve the linkage between the two screens.

The designer can determine the picture content displayed by each touch screen according to the business requirements, so that the electronic equipment is applied to more industrial fields.

As shown in fig. 2, in some embodiments, the driving module 104 includes a first driving unit 1041 and a second driving unit 1042, the first driving unit 1041 is connected to the first touch screen 101 and is used for driving the display of the first touch screen 101, and the second driving unit 1042 is connected to the second touch screen 102 and is used for driving the display of the second touch screen 102. Here, as to the specific structure of the driving unit, reference may be made to the description of the driving module, which is not repeated herein.

In this embodiment, when detecting a touch action of a user on a touch screen corresponding to the driving unit, any driving unit transmits the detected touch action to another driving unit, and drives the corresponding touch screen to display according to the touch action sent by the other driving unit and the touch action detected by the driving unit. For example, assuming that the electronic device is a smartphone, a user clicks a social icon on an operation interface of a first touch screen of the smartphone, and the first touch screen displays an operation interface of a social application program. At this time, the user also wants to click a game icon on the first touch screen, but displays an operation interface of the game application on the second touch screen. Then, a user inputs a touch action in the game icon area on the first touch screen, specifically, clicks the game icon, and the first driving unit detects the touch action on the first touch screen and transmits the detected touch action to the second driving unit. At this time, in order to display the operation boundary of the game application program on the second touch screen, the user also needs to input a touch action on the second touch screen to open the authority so as to display the operation boundary of the game application program on the second touch screen. Therefore, the second driving unit drives the second touch screen to operate the operation interface of the game application program according to the touch action sent by the first driving unit and the touch action detected by the second driving unit.

Through setting up two drive unit and handling corresponding touch-control information respectively, on the one hand, it can improve the speed of handling touch-control information to the touch-sensitive screen shows corresponding content fast, and on the other hand, it is favorable to the designer to conveniently debug each drive unit, and is favorable to the designer to compile logic to each drive unit, greatly improves the productivity and the reliability of product.

In some embodiments, in order to prevent an illegal user from operating the touch screen, when a driving unit transmits a touch action to another driving unit, the driving unit needs to detect whether the touch action of the user on the touch screen corresponding to the driving unit matches a preset touch action.

If the touch actions are matched, one driving unit transmits the detected touch actions to the other driving unit, and the touch actions sent by the other driving unit and the touch actions detected by the driving unit drive the corresponding touch screen together to display.

If not, one drive unit analyzes that the user is an illegal user and refuses to transmit the touch action to the other drive unit.

In this embodiment, the preset touch action may be a preset gesture track, such as a circular track, a hooking track, a fork track, and the like, performed by a user on the touch surface of the touch screen, or may be any operation performed by the user on an effective area defined by the touch screen, for example, the first touch screen displays a prompt box, and the first driving unit regards the operation as an operation matching the preset touch action as long as the user inputs any operation on the prompt box.

In some environments with high requirements on safety or confidentiality, whether the touch action is matched with the preset touch action is detected, and then whether the touch screen is driven to display or not is determined continuously, so that the operation of an illegal user can be effectively prevented, or some misoperation of the user can be prevented.

In some embodiments, in order to save energy consumption of the electronic device or facilitate a user to control an operating state of another touch screen through a touch screen, here, when any one of the driving units transmits a detected touch action to another driving unit, and when the first driving unit detects that the touch action of the user on the first touch screen is an action indicating to close the second touch screen, the first driving unit transmits the detected touch action to the second driving unit, so that the second driving unit closes the second touch screen according to the touch action of the user on the first touch screen and the touch action of the user on the second touch screen.

When the double screens work simultaneously, the electric quantity of the electronic equipment is consumed more. At this moment, a user inputs a touch action on the first touch screen, the first driving unit detects the touch action of the user on the first touch screen, and the touch action is analyzed to indicate that the second touch screen is closed.

In some embodiments, in order to determine whether the user really needs to close the second touch screen and prevent the second touch screen from being closed by mistake due to misoperation, when the second touch screen is closed, the second driving unit sends a reminding message to the first driving unit, and the user looks at the reminding message on the first touch screen to determine whether the second touch screen really needs to be closed.

If the user determines to close the second touch screen, the user inputs a determination operation on the first touch screen, the first touch screen sends a trigger signal according to the determination operation, and the first driving unit sends feedback information to the second driving unit when detecting the trigger signal, so that the second driving unit closes the second touch screen according to the touch action of the user on the first touch screen, the touch action of the user on the second touch screen and the feedback information.

By adopting a reminding and feedback mechanism, the user experience can be improved, and the adverse problems caused by misoperation are avoided as much as possible.

As shown in fig. 2, in some embodiments, the first touch screen 101 includes a display module 1011 and a human body sensing device 1012, and the first driving unit 1041 is connected to the display module 1011 and the human body sensing device 1012 respectively. The display module 1011 is used for displaying image contents, and a designer can select the type and model of the display module according to business requirements. The human body sensing means includes, but is not limited to, one or more of the following: infrared sensors, distance sensors, sound sensors, three-axis gyroscopes, angular rate sensors, and the like. The designer can determine the position of the human body sensing device on the first touch screen 101 according to the type of the human body sensing device. For example, the designer may place an infrared sensor on the display surface of the first touch screen 101 in order to better acquire human body information. The designer may place the three-axis gyroscope inside the first touch screen 101.

When the human body sensing device 1012 detects that the human body signal satisfies the preset condition, the first driving unit 1041 sends notification information to the second driving unit 1042, and the second driving unit 1042 controls the second touch screen 102 to display a preset image according to the notification information.

The preset condition is used for judging whether the user operates the first touch screen or the second touch screen at present, and further, the preset condition is different according to different types of the human body sensing device. For example, when the human body sensing device is an infrared sensor, the preset condition is "higher than a preset intensity". The first driving unit judges whether the user operates the first touch screen according to the intensity of the reflection signal collected by the infrared sensor, and if the intensity of the reflection signal is lower than the preset intensity, the user does not operate the first touch screen. If the strength of the reflected signal is higher than the preset strength through analysis, the user operates the first touch screen at the moment, the first driving unit sends notification information to the second driving unit, and the second driving unit controls the second touch screen to display a preset image according to the notification information, wherein the preset image can be a pure white image or a pure black image. For example, when the human body sensing device is a three-axis gyroscope, the preset condition is "higher than a preset angle".

As shown in fig. 2, the electronic device 10 further includes a communication module 105, and the communication module 105 is used for communicating with a remote end. When the electronic device 10 communicates with the outside, the second driving unit 1042 accesses the call module 105 at a certain frequency, and controls the second touch screen 102 to enter the screen locking state when receiving the notification information sent by the first driving unit 1041 and determining that the call module 105 is in the call state.

Through controlling the second touch screen to display the preset image or lock the screen, the misoperation of the second touch screen when the user operates the first touch screen can be prevented.

In some embodiments, when the power of the electronic device is insufficient, in order to prolong the battery life and save power of the electronic device at this time, the second driving unit 1042 accesses the power system of the electronic device 10, for example, the second driving unit 1042 accesses a charging management chip of the power system at a certain frequency, obtains the current battery capacity from the charging management chip, and turns off the display of the second touch screen 102 when the current battery capacity is lower than the warning value and the second driving unit receives the notification information sent by the first driving unit 1041. Therefore, by turning off the operation of the second touch screen 102, the battery life of the electronic device is extended.

In some embodiments, the display surface of the first touch screen 101 and the display surface of the second touch screen 102 are the same in size, and a designer may determine the relationship between the sizes of the display surfaces of the touch screens according to business requirements. In this embodiment, the display surfaces of the touch screens of the electronic device 10 have the same size, and the electronic device 10 has a regular appearance, which is beneficial to improving the experience of the user.

As shown in FIG. 2, in some embodiments, electronic device 10 includes, but is not limited to: the earphone 106 and/or the keys 107 and/or the camera 108, and the first driving unit 1041 are respectively connected with the earphone 106, the keys 107 and the camera 108. The receiver 106 and/or the key 107 and/or the camera 108 are disposed on the first touch screen 101, the receiver 106 can output voice information of the electronic device 10, a user outputs a text or a control command to the electronic device through the key 107, and the user can start the camera 108 to shoot when needing to shoot. Of course, the designer may design the electronic device according to the specific application of the electronic device, and is not limited to the above components of the electronic device.

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

Claims (13)

1. An electronic device is characterized by comprising a driving module, a first touch screen and a second touch screen;

in a first stage, the first touch screen receives a touch action of a first user on the first touch screen, generates a first touch signal and sends the first touch signal to the driving module;

the driving module opens the touch permission of the second touch screen according to the first touch signal;

the second touch screen receives a touch action of a second user on the second touch screen, generates a second touch signal and sends the second touch signal to the driving module;

the driving module displays a first picture on the second touch screen according to the first touch signal and the second touch signal;

in the second stage, the second touch screen receives a touch action of the second user on the second touch screen, generates a third touch signal and sends the third touch signal to the driving module;

the driving module opens the touch control authority of the first touch screen according to the third touch signal;

the first touch screen receives a touch action of the first user on the first touch screen, generates a fourth touch signal and sends the second touch signal to the driving module;

and the driving module displays a second picture on the first touch screen according to the third touch signal and the fourth touch signal.

2. The electronic device of claim 1, wherein the driving module comprises a first driving unit and a second driving unit; each driving unit correspondingly drives one touch screen;

and any one drive unit is used for transmitting the detected touch action to the other drive unit when detecting the touch action of the user on the touch screen corresponding to the drive unit, and jointly driving the corresponding touch screen to display according to the touch action sent by the other drive unit and the touch action detected by the drive unit.

3. The electronic device according to claim 2, wherein any one of the driving units is configured to transmit a detected touch action to another driving unit when the touch action of the user on the touch screen corresponding to the driving unit is detected, and the method includes:

and when detecting that the touch action of the user on the touch screen corresponding to the drive unit is matched with the preset touch action, any one drive unit transmits the detected touch action to the other drive unit.

4. The electronic device of claim 3, wherein transmitting the detected touch action to another driving unit by any one of the driving units comprises:

when the first driving unit detects that the touch action of the user on the first touch screen is an action indicating closing of the second touch screen, the first driving unit transmits the detected touch action to the second driving unit, so that the second driving unit closes the second touch screen according to the touch action of the user on the first touch screen and the touch action of the user on the second touch screen.

5. The electronic device of claim 4, wherein the second driving unit sends a reminder message to the first driving unit when the second touch screen is turned off.

6. The electronic device according to claim 5, wherein the first driving unit is further configured to send feedback information to the second driving unit when detecting a trigger signal that the user determines to close the second touch screen, so that the second driving unit closes the second touch screen according to the touch action of the user on the first touch screen, the touch action of the user on the second touch screen, and the feedback information.

7. The electronic device according to any one of claims 2 to 6, wherein the first touch screen comprises a display module and a human body sensing device;

the first driving unit is further used for sending notification information to the second driving unit when the human body sensing device detects that the human body signal meets a preset condition, and the second driving unit controls the second touch screen to display a preset image according to the notification information.

8. The electronic device of claim 7, further comprising a communication module configured to communicate with a remote device;

the second driving unit is further used for controlling the second touch screen to enter a screen locking state when the notification information sent by the first driving unit is received and the communication module is determined to be in the communication state.

9. The electronic device of claim 8,

the second driving unit is further used for closing the display of the second touch screen when the notification information sent by the first driving unit is received and the electric quantity of the electronic equipment is detected to be insufficient.

10. The electronic device of claim 9, wherein the display surface of the first touch screen and the display surface of the second touch screen are the same size; the following components of the electronic device are arranged on the first touch screen: an earpiece and/or a key and/or a camera.

11. The electronic device according to any one of claims 1 to 6, wherein the first touch screen is located on a front side of the electronic device, and the second touch screen is located on a back side of the electronic device.

12. The electronic device of claim 7, wherein the first touch screen is located on a front side of the electronic device and the second touch screen is located on a back side of the electronic device.

13. The electronic device according to any one of claims 8 to 10, wherein the first touch screen is located on a front side of the electronic device, and the second touch screen is located on a back side of the electronic device.

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