CN113010028B - Display screen, intelligent device and control method of intelligent device - Google Patents

Abstract

The utility model provides a display screen, intelligent device and intelligent device's control method, through the touch-control layer of setting up in first display screen and second display screen lateral part, realize receiving user's touch-control operation, and realize the unified control to first display screen and second display screen through the controller, make first display screen and second display screen all can respond the touch-control operation that the touch-control signal corresponds, enrich display content and the function of display screen, and the touch-control layer is located the screen lateral part, do not integrate on arbitrary one deck display screen, can not influence the display effect of arbitrary one deck display screen, the display screen also can not influence the receipt of touch-control operation to the touch-control layer, the user can realize the indirect operation to two display screens through direct to edge touch-control layer operation, further promoted user experience.

Description

Display screen, intelligent device and control method of intelligent device

Technical Field

The disclosure relates to the field of control of electronic devices, and in particular relates to a display screen, an intelligent device and a control method of the intelligent device.

Background

In the prior art, a device with a double-layer display screen is usually a transparent display screen covered on the display side of a full-color display screen capable of being touched, the transparent display screen can only realize display of simple contents, such as time, date and the like, the function of the transparent display screen is single, in the design scheme of the double-layer display screen, if a touch layer is integrated on the full-color display screen, the transparent display screen above can shield touch signals, so that the touch signals cannot be obtained, and if the touch layer is integrated on the transparent display screen, the display effect of the transparent display screen can be affected, and the use experience of a user is poor.

Disclosure of Invention

An object of the disclosed embodiments is to provide a display screen, an intelligent device and a control method of the intelligent device, so as to solve the problems that in the prior art, a transparent display screen has a single function, and a touch layer is singly integrated on one display screen, which is easy to cause poor user experience.

In order to solve the above technical problems, the embodiments of the present disclosure adopt the following technical solutions: a display screen, comprising: a first display screen; a second display screen provided on a display side of the first display screen; the touch control layer is arranged on the side part of the first display screen and/or the second display screen and is configured to output corresponding touch control signals according to touch control operation; and the controller is configured to receive a touch signal output by the touch layer and control the first display screen and/or the second display screen to respond to the touch signal based on the touch signal.

Further, the controller is specifically configured to: acquiring touch position information in the touch signal; mapping the touch position information to a first position on the first display screen, and controlling the first display screen to respond to the touch signal at the first position; and/or mapping the touch position information to a second position on the second display screen, and controlling the second display screen to respond to the touch signal at the second position.

Further, the controller at least comprises a first controller and a second controller; the first controller is configured to be connected with the touch layer and control the first display screen; the second controller is configured to be connected to the first controller and control the second display screen.

The embodiment of the disclosure also provides an intelligent device comprising the display screen.

Further, the method further comprises the following steps: a housing; the shell is arranged on the side part of the first display screen and/or the side part of the second display screen, and the touch control layer of the display screen is arranged on the outer surface of the shell.

The embodiment of the disclosure also provides a control method of the intelligent device, which is applied to the intelligent device and comprises the following steps: receiving a touch signal output by a touch layer; and controlling the first display screen and/or the second display screen to respond to the touch signal.

Further, the controlling the touch operation corresponding to the touch signal by the first display screen and/or the second display screen includes: acquiring touch position information in the touch signal; mapping the touch position information to a first position on the first display screen, and controlling the first display screen to respond to the touch signal at the first position; and/or mapping the touch position information to a second position on the second display screen, and controlling the second display screen to respond to the touch signal at the second position.

Further, after the obtaining the touch position information in the touch signal, the method further includes: mapping the touch position information to a first position on the first display screen, and controlling the first display screen to respond to the touch signal by taking the first position as a starting position; and/or mapping the touch position information to a second position on the second display screen, and controlling the second display screen to respond to the touch signal by taking the second position as a starting position.

Further, after receiving the touch signal output by the touch layer, the method further includes: determining a screen currently in an operating state and/or in a non-operating state; and controlling the screen in the current working state to respond to the touch signal.

Further, after receiving the touch signal output by the touch layer, the method further includes: judging whether the touch signal is an interaction signal or not; and responding to the interaction signal, controlling the screen in the non-working state to be switched to the working state, and controlling all screens to respond to the interaction signal.

Further, in the case that the controller for displaying the screen in the smart device includes at least a first controller and a second controller, it further includes: receiving and responding to the touch signal by the first controller, and controlling the first display screen to respond to the touch signal; or, sending the touch signal to the second controller; and the second controller receives and responds to the touch signal sent by the first controller, and controls the second display screen to respond to the touch signal.

Further, after the touch signal is received by the first controller, the method further includes: judging whether the touch signal is an interaction signal or not by the first controller; controlling the first display screen to respond to the interaction signal and sending the interaction signal to the second controller under the condition that the touch signal is the interaction signal; and the second controller receives and responds to the interaction signal sent by the first controller, and controls the second display screen to respond to the interaction signal.

The beneficial effects of the embodiment of the disclosure are that: the touch control operation of a user is received through the touch control layers arranged on the side parts of the first display screen and the second display screen, unified control of the first display screen and the second display screen is realized through the controller, and the first display screen and the second display screen can respond to the touch control operation corresponding to the touch control signals, so that the display content and the function of the display screens are enriched; and the touch control layer is positioned at the side part of the screen, is not integrated on any display screen, can not influence the display effect of any display screen, can not influence the touch control operation of the touch control layer, and can realize indirect operation of two display screens by directly operating the edge touch control layer, thereby further improving the use experience of a user.

Drawings

In order to more clearly illustrate the embodiments of the present disclosure or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present disclosure, and other drawings may be obtained according to these drawings without inventive effort to a person of ordinary skill in the art.

Fig. 1 is a schematic structural view of a display screen according to a first embodiment of the present disclosure;

fig. 2 is a circuit integration schematic diagram of a touch layer in a first embodiment of the disclosure;

fig. 3 is another circuit integration schematic diagram of the touch layer in the first embodiment of the disclosure;

fig. 4 is a schematic view of another structure of a display screen according to the first embodiment of the present disclosure;

FIG. 5 is a schematic diagram of a smart device according to a second embodiment of the present disclosure;

FIG. 6 is a flow chart of a control method in a third embodiment of the present disclosure;

Fig. 7 is a schematic view of touch points on a dial of a smart watch according to a third embodiment of the present disclosure.

Detailed Description

Various aspects and features of the disclosure are described herein with reference to the drawings.

It should be understood that various modifications may be made to the embodiments of the application herein. Therefore, the above description should not be taken as limiting, but merely as exemplification of the embodiments. Other modifications within the scope and spirit of this disclosure will occur to persons of ordinary skill in the art.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and, together with a general description of the disclosure given above and the detailed description of the embodiments given below, serve to explain the principles of the disclosure.

These and other characteristics of the present disclosure will become apparent from the following description of a preferred form of embodiment, given as a non-limiting example, with reference to the accompanying drawings.

It should also be understood that, although the present disclosure has been described with reference to some specific examples, a person skilled in the art will certainly be able to achieve many other equivalent forms of the present disclosure, having the characteristics as set forth in the claims and hence all coming within the field of protection defined thereby.

The above and other aspects, features and advantages of the present disclosure will become more apparent in light of the following detailed description when taken in conjunction with the accompanying drawings.

Specific embodiments of the present disclosure will be described hereinafter with reference to the accompanying drawings; however, it is to be understood that the disclosed embodiments are merely examples of the disclosure, which may be embodied in various forms. Well-known and/or repeated functions and constructions are not described in detail to avoid obscuring the disclosure in unnecessary or unnecessary detail. Therefore, specific structural and functional details disclosed herein are not intended to be limiting, but merely serve as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present disclosure in virtually any appropriately detailed structure.

The specification may use the word "in one embodiment," "in another embodiment," "in yet another embodiment," or "in other embodiments," which may each refer to one or more of the same or different embodiments in accordance with the disclosure.

The first embodiment of the present disclosure provides a display screen mainly applied to an intelligent device having a display screen, such as a smart watch, a smart speaker, a smart home appliance, etc., and the display screen is schematically shown in fig. 1, and mainly includes a first display screen 10 capable of full-color display; the second display screen 20 is disposed on the display side of the first display screen 10, and the second display screen 20 is preferably a transparent display screen, i.e., the content displayed on the first display screen 10 can be viewed through the second display screen 20; the touch control layer 30 is arranged at the side part of the first display screen 10 and/or the second display screen 20, a user can perform various touch control operations on the touch control layer 30, and the touch control layer 30 correspondingly generates different touch control signals according to different touch control operations; the controller 40 is connected to the first display screen 10, the second display screen 20 and the touch layer 30, and after receiving the touch signal output by the touch layer 30, the controller 40 controls the first display screen 10 and/or the second display screen 20 to respond to the touch operation corresponding to the touch signal according to the touch signal. It should be noted that, in fig. 1, only one preferred connection and control manner of the first display screen 10, the second display screen 20, the touch layer 30 and the controller 40 are shown, and in fig. 1, the arrows only represent the circulation interaction of signals, and the position, the size, the shape and other information of each component should be adjusted according to the specific situation of the device in practical application, so long as the controller is guaranteed to receive the touch signal output by the touch layer and control the two display screens.

In this embodiment, the touch layer may be made of a flexible circuit board (FPC, flexible Printed Circuit), and the circuit integration schematic diagram of the touch layer is shown in fig. 2 or fig. 3. Specifically, the substrate may be an FPC circuit board, the touch circuit on the circuit board may be made of copper, silver, graphene, etc., and copper is used as a circuit material, as shown in fig. 5, copper wires are arranged on the substrate according to the arrangement manner of a transmitting wire (TX) and a receiving wire (RX) shown in fig. 2, and position information of a touch point corresponding to the touch operation is determined according to an intersection point (shown as a shaded portion in fig. 2) of the TX wire and the RX wire, and an output end is provided at one end of the substrate to connect with the controller; in the manner of fig. 3, a plurality of touch Channels (CH) may be disposed on the substrate, and the position information of the touch point corresponding to the touch operation may be correspondingly determined according to the positions of the different touch channels.

Taking the smart watch as an example, the first display screen 10 is a full-color display screen, so as to display all functions of the smart watch, such as displaying time, movement condition, payment code, map, etc.; the second display screen 20 is a transparent display screen covering the first display screen 10, and can perform simple contents such as time and movement, and the touch control layer 30 is a flexible circuit board surrounding the first display screen 10 and the second display screen. When a user performs touch operations such as touching or sliding on the touch layer 30, the touch layer 30 correspondingly generates a touch signal, and after receiving the control signal, the controller 40 first obtains touch position information carried in the touch signal, that is, position information of a touch point on the touch layer 30 where the user performs the touch operation, or position information of a touch start point and a touch end point when performing the sliding operation, and position information of each point passing through from the touch start point to the touch end point. Then, according to the screen currently in the working state and the content currently displayed on the screen, or in combination with the screen which is set by the user and is preferentially responsive to the touch signal and the display content thereof, the position of the touch position information mapped on the display screen is determined, and due to the difference between the display content and the function of the first display screen 10 and the second display screen 20, the first position mapped on the first display screen 10 and the second position mapped on the second display screen 20 according to the touch position information may be different, and even if the user performs the same touch operation, the response modes of the first display screen 10 and the second display screen 20 may be different.

Further, the richness and control manner of the displayable content of the first display screen 10 and the second display screen 20 are different, the control manner of the first display screen 10 is complex, the control manner of the second display screen 20 is relatively simple, if one controller is used to control two display screens simultaneously, the controller is required to be continuously switched between two different control manners, and the controller is required to be ensured to realize a complex control manner, so that the waste of hardware resources of the controller can be caused due to the simple control manner when the second display screen 20 is controlled. Therefore, in this embodiment, control of different screens can be achieved by setting two controllers with different processing capacities, resource waste of the controllers is avoided, continuous switching of control modes of the controllers is not needed, and the risk of faults of the controllers is reduced.

Specifically, as shown in fig. 4, the display screen has two controllers, a first controller 41 connected to the touch layer 30 for controlling the first display screen 10, and a second controller 42 connected to the first controller 41 for controlling the second display screen 20, respectively. The first controller 41 is connected to the touch layer 30, and is capable of receiving a touch signal output by the touch layer 30, determining which screen is to respond to the touch signal according to the working conditions of the first display screen 10 and the second display screen 20 after receiving the touch signal, directly controlling the first display screen 10 to respond to the touch signal when the first display screen 10 is required to respond, and sending the touch signal to the second controller 20 when the second display screen 20 is required to respond, wherein the second controller 42 controls the second display screen 20 to respond to the touch signal; or the user can autonomously set which screen is used for responding when the two screens are simultaneously in a sleep state or simultaneously in a working state, and the first controller controls the first display screen 10 to respond with a touch signal according to the autonomous setting of the user, or sends the touch signal to the second controller 42, and the second controller 42 controls the second display screen 20 to respond with the touch signal.

According to the embodiment, through the touch control layers arranged on the side parts of the first display screen and the second display screen, the touch control operation of a user is received, and unified control of the first display screen and the second display screen is realized through the controller, so that the first display screen and the second display screen can respond to the touch control operation corresponding to the touch control signals, and the display content and the function of the display screens are enriched; and the touch control layer is positioned at the side part of the screen, is not integrated on any display screen, can not influence the display effect of any display screen, can not influence the touch control operation of the touch control layer, and can realize indirect operation of two display screens by directly operating the edge touch control layer, thereby further improving the use experience of a user.

The second embodiment of the present disclosure provides an intelligent device, such as a smart watch, a smart speaker, etc., which uses the display screen as provided in the first embodiment of the present disclosure, so that both the first display screen 10 and the second display screen 20 can respond to the touch operation performed by the user on the touch layer 30, and play a role in enriching the display content and functions of the display screen. Further, the smart device is generally further provided with a housing 50, taking a smart watch as an example, the housing 50 is mainly disposed at a side portion of the first display screen 10 and/or the second display screen 20 to protect the first display screen 10 and the second display screen 20, when the touch layer 30 is disposed, the touch layer 30 can be correspondingly disposed on an outer surface of the housing 50, as shown in fig. 5, a hatched portion is a position of the touch layer 30, and in fig. 5, a connection or a control relationship between the controller 40 and the touch layer 30, the first display screen 10 and the second display screen 20 is not shown, which is only schematically in terms of structure; in addition, the specific position of the touch layer 30 may be adjusted according to the actual shape of the housing 50, and fig. 5 only shows a preferred embodiment, but the embodiment is not limited thereto. When the intelligent device is specifically used, a processor (CPU) of the intelligent device can be used as the controller 40, and on the basis of the original function of the intelligent device, the receiving and the responding of the touch control signals and the control of the display screen are simultaneously carried out.

When the intelligent device is manufactured, the first display screen of the intelligent device is a full-color display screen, which may specifically be a Liquid Crystal Display (LCD) screen, an Organic Light-Emitting Diode (OLED) screen, or the like; the second display screen is a transparent black-and-white or color display screen, which may be an LCD display screen; the shell can be made of non-conductive materials such as plastics, and the touch control layer is made of a flexible circuit board.

According to the embodiment, the touch control operation of a user is received through the touch control layers arranged on the side parts of the first display screen and the second display screen, the control of the first display screen and the second display screen is realized through the controller, the first display screen and the second display screen can respond to the touch control operation corresponding to the touch control signals, the display content and the function of the display screens are enriched, the touch control layers are arranged on the shell on the side parts of the screens and are not integrated on any display screen, the display effect of any display screen is not affected, the touch control layer is not affected, the user can directly operate the edge touch control layer to realize the indirect operation of the two display screens, and the use experience of the user is further improved.

A third embodiment of the present disclosure provides a control method of an intelligent device, which specifically controls the intelligent device in the second embodiment of the present disclosure based on a touch operation performed by a user on a touch layer, where a flowchart of the method is shown in fig. 6, and the method mainly includes S61 and S62:

s61, receiving a touch signal output by a touch screen;

S62, controlling the first display screen and/or the second display screen to respond to the touch signal.

The smart device in this embodiment may be any smart device having a display function, such as a smart watch, a smart speaker, and a smart home appliance, and this embodiment will take the smart watch as an example to detail how the smart device responds to a touch operation of a user on a touch layer.

When a user performs touch operations such as point touch or sliding on the touch layer, the touch layer correspondingly generates a touch signal, and after receiving the control signal, the controller firstly obtains touch position information carried in the touch signal, namely, the position information of a touch point of the user performing the point touch operation on the touch layer, or the position information of a touch starting point and a touch ending point when performing the sliding operation, and the position information of each point passing through from the touch starting point to the touch ending point. Then, according to the screen currently in a working state and the content currently displayed by the screen or the screen which is set by the user and responds to the touch signal preferentially and the display content thereof, the position of the touch position information mapped on the display screen is determined, and due to the difference of the display content and the function between the first display screen and the second display screen, the first position mapped on the first display screen and the second position mapped on the second display screen according to the touch position information may be different, and even if the user executes the same touch operation, the response modes of the first display screen and the second display screen may be different.

A specific control manner of the smart device is described below with reference to fig. 7. Fig. 7 shows a dial plate of a smart watch in a circular shape, the periphery of the dial plate is provided with a touch layer with a certain width, and illustratively, four touch points A, B, C, D are arranged on the touch layer, and the first display screen of the smart watch can display a music playing interface and a map navigation interface, and the second display screen can display the current time, an alarm clock, walking data of a user, heart rate data of the user and the temperature and humidity of the current environment. In actual use, if a user performs a point touch operation at the point B, the correspondingly generated touch signal carries the position information of the point B, at this time, the controller determines the display screen in the current working state, maps the position information of the point B to the corresponding position on the display screen, and controls the screen in the current working state to respond to the touch signal; if the first display screen is in a working state and a music playing interface is being displayed, the position corresponding to the next song icon in the music playing interface can be determined according to the position information of the point B, which is equivalent to the fact that the user performs the next song operation, at the moment, the first display screen is controlled to respond to the touch signal, the operation of touching the next song icon is performed, and then the information such as song name, singer name, lyrics and the like of the next song is displayed; if the current second display screen is in a working state and is displaying the current time, the position corresponding to the icon of the point B for switching the display content can be determined, so that the switching of the current display content is realized, for example, the current time is switched to the user walking data, in practice, the icon of the switching display content can be arranged at any position of the second display screen, or the icon position is not displayed, and the operation of switching the display content can be set as long as a touch signal corresponding to the touch operation is received.

In the actual use process, the user can also perform a sliding operation on the touch layer, for example, from the point a, along the circular arc on the right side of the table disc, through the point B, and then reach the point C, as indicated by the dashed arrow in fig. 7. If the current first display screen is in a working state and is displaying a function list contained in the intelligent watch, when a touch signal of a sliding operation from the point A to the point C is received, an icon of a first function displayed in the current screen is taken as a first position, and the position of the icon is taken as a starting position, a plurality of other function icons arranged behind the icon of the first function are sequentially displayed, so that the sliding display of the function list is realized; if the current second display screen is in a working state and is displaying an alarm clock setting interface, when a touch signal of a sliding operation from the point A to the point C is received, the position of the currently displayed minute hand pointer can be used as a second position, and the position is used as a starting position, so that the minute hand pointer rotates 180 degrees clockwise to set the alarm clock time, and it is understood that in actual use, corresponding touch operation can be performed according to the time to be adjusted, for example, when the minute hand is expected to rotate 90 degrees clockwise, the minute hand can start sliding from the point A to the point B, and if the minute hand is expected to rotate anticlockwise, the minute hand starts sliding from the point A to the point D and then reaches the point C, so that the minute hand points to different moments, and adjustment of the time or the setting of the alarm clock are completed; the start point of the sliding operation is not limited to the point a, or any point A, B, C, D, and any point on the touch layer may be actually used as the start point of the sliding operation, so long as the specific sliding direction and distance are determined according to the coordinates of each point through which the sliding operation passes.

In the case that the first display screen 10 and the second display screen 20 are in the working state or in the sleep state at the same time, if the controller receives the touch signal at this time, the controller may determine which screen is to respond to the touch signal according to the working conditions of the first display screen 10 and the second display screen 20 (such as the frequency of using the two screens by the user and the screen responding to the last touch signal, respectively); or the user can autonomously set which screen is used for responding when the two screens are simultaneously in a sleep state or are simultaneously in a working state, and the controller controls the corresponding screen to respond to the touch signal according to the autonomous setting of the user.

It should be noted that, the above touch signals and the corresponding operations performed on the display screen are schematic operations, and in actual use, the touch position information carried in each touch signal may also correspond to positions on other display screens, or according to different contents displayed in the current display screen, different operations are correspondingly performed at the same positions, so that a developer may correspondingly set a mapping relationship between the touch position information and the positions in the display screen according to actual functional requirements, or may correspondingly set a manner of the display screen responding to the touch signals according to actual functional requirements.

In actual use, the intelligent device can respond to the touch operation of the user without displaying the various contents on the display screen. Taking a smart watch as an example, the existing smart watch can comprise functions of calling, playing music and the like, the functions of calling and playing music can be realized by connecting a Bluetooth component built in the watch with a Bluetooth earphone, when a call is incoming, contents such as an incoming call number and contact person information can be displayed on a first display screen or a second display screen, a user can realize the function of answering the call by executing a sliding operation from a point D to a point B after passing through a point C, at this moment, the displayed contents on the display screen can not change, only the corresponding call is needed to be connected, and of course, the change adjustment of the corresponding displayed contents can also be set, and the details are not repeated; in the process of talking or listening to music, if the user needs to adjust the volume, the user can realize the process through a clockwise sliding operation or a anticlockwise sliding operation, and the volume adjustment process is not required to be displayed on the display screen, for example, the clockwise sliding operation indicates to increase the volume, the anticlockwise sliding operation indicates to decrease the volume, the volume can be specifically increased or decreased through the speed of the sliding speed or the magnitude of the sliding circle number, the user can be considered to want to keep the current volume when the user stops sliding, and the volume adjustment is stopped at the moment.

In general, only one of the first display screen and the second display screen is in a working state, and the other is in a sleep state (non-working state), so as to reduce the power consumption of the display screens, and in order to enrich the content displayed by the display screens, improve the user experience, and enable the touch layer to correspondingly output a touch signal which is substantially an interactive signal by executing a special touch operation on the touch layer. In actual use, the special touch operation can be set autonomously by a user, and is different from the general touch operation; when a touch signal is received, firstly judging whether the touch signal is an interaction signal, if the touch signal is not the interaction signal, determining which display screen is in response to the touch signal in the first display screen and the second display screen directly according to the mode described in the embodiment, or controlling the corresponding display screen in personalized settings according to the personalized settings of a user to respond to the touch signal, for example, setting the second display screen as the display screen which responds to the touch operation first in the personalized settings of the user, when the touch signal of a non-interaction signal is received, firstly controlling the second display screen to respond to the touch signal, and switching an execution subject of the touch signal to the first display screen when the second display screen cannot respond to or receives a switching screen signal; if the touch signal is an interaction signal, the controller controls the display screen in a non-working state to be switched to a working state, and controls the first display screen and the second display screen to simultaneously respond to the interaction signal, so that the content displayed between the first display screen and the second display screen is interacted, for example, a full-color dynamic dial plate is displayed on the first display screen, a dynamic pointer is displayed on the second display screen, so that the first display screen and the second display screen together form a clock with a three-dimensional dynamic effect, or the first display screen and the second display screen are respectively displayed according to other realizable functions, the three-dimensional dynamic interaction of the content displayed between the first display screen and the second display screen is formed, and the effect of enriching practical experience is achieved.

Specifically, after receiving the touch signal output by the touch screen, the screen currently in the working state and/or the screen in the non-working state may be first judged, and then the screen currently in the working state is controlled to respond to the touch signal. In this embodiment, it is determined which screen of the first display screen and the second display screen is in the working state, and when which screen is in the non-working state, the controller may be used to communicate with the integrated control circuits of the first display screen and the second display screen respectively, and determine the working state of the screen according to the level of the fed back data signal, for example, if the data signal fed back by the first display screen is low level, the data signal fed back by the second display screen is high level, and then the first display screen is currently in the non-working state, and the second display screen is in the working state; or determining the working state of the corresponding display screen according to the function realized by the current controller, for example, when the controller is performing payment code display, the first display screen is in a working state, and the second display screen is required to be in a non-working state in order not to influence the display effect of the first display screen because the second display screen cannot perform payment code display.

Further, since the richness and the control manner of the displayable content of the first display screen and the second display screen are different, the control manner of the first display screen is complex, the control manner of the second display screen is relatively simple, if one controller is used to control two display screens simultaneously, the controller is required to be continuously switched between two different control manners, and the controller is required to be ensured to realize the complex control manner, so that the waste of hardware resources of the controller can be caused due to the simple control manner when the second display screen is controlled. Therefore, in this embodiment, control of different screens can be achieved by setting two controllers with different processing capacities in the intelligent device, resource waste of the controllers is avoided, continuous switching of control modes of the controllers is not needed, and the risk of faults of the controllers is reduced.

Specifically, the two controllers in the intelligent device are respectively a first controller connected with the touch control layer and used for controlling the first display screen, and a second controller connected with the first controller and used for controlling the second display screen. The first controller is connected with the touch layer, can receive a touch signal output by the touch layer, determines which screen is used for responding to the touch signal according to the working conditions of the first display screen and the second display screen after receiving the touch signal, directly controls the first display screen to respond to the touch signal when the first display screen is required to respond, and sends the touch signal to the second controller when the second display screen is required to respond, and controls the second display screen to respond to the touch signal by the second controller; or the user can autonomously set which screen is used for responding when the two screens are simultaneously in a sleep state or simultaneously in a working state, and the first controller controls the first display screen to respond with a touch signal according to the autonomous setting of the user, or sends the touch signal to the second controller, and the second controller controls the second display screen to respond with the touch signal.

It should be appreciated that the specific manner in which the first controller controls the first display screen and the second controller controls the second display screen is the same as the manner in which the controller controls the first display screen and/or the second display screen, and detailed descriptions thereof are omitted.

Further, after the first controller receives the touch signal, whether the touch signal is an interaction signal or not can be judged first, if the touch signal is the interaction signal, the first display screen is controlled to respond to the interaction signal, the interaction signal is simultaneously sent to the second controller, after the second controller receives the interaction signal, the second display screen is controlled to respond to the interaction signal, the interaction signal and the first display screen are simultaneously displayed, interaction of screen display contents is formed, and display effects are enriched. In addition, if the first controller or the second controller finds that the display screen is not in the working state when the first controller or the second controller controls the corresponding display screen when the first controller or the second controller receives the interaction signal, the first controller or the second controller wakes up the corresponding display screen, and the first controller or the second controller controls the corresponding display screen to respond to the interaction signal after the first controller or the second controller is in the working state.

It should be understood that, in the embodiment, the manner in which the smart watch responds to the touch operation is described in detail, which is merely by way of example and not by way of limitation, and the manner and the response result in which the smart device responds to the touch operation may also have other forms based on different application scenarios and different functional implementations of the smart device, which are all within the scope of the present disclosure.

While various embodiments of the present disclosure have been described in detail, the present disclosure is not limited to these specific embodiments, and various modifications and embodiments can be made by those skilled in the art on the basis of the concepts of the present disclosure, and these modifications and modifications should be within the scope of the present disclosure as claimed.

Claims (11)

1. A display screen, comprising:

A first display screen;

a second display screen provided on a display side of the first display screen;

the touch control layer is arranged on the side parts of the first display screen and the second display screen and is configured to output corresponding touch control signals according to touch control operation;

The controller is configured to receive a touch signal output by the touch layer and control the first display screen and/or the second display screen to respond to the touch signal based on the touch signal;

the controller is specifically configured to:

Acquiring touch position information in the touch signal;

Mapping the touch position information to a first position on the first display screen, and controlling the first display screen to respond to the touch signal at the first position; and/or mapping the touch position information to a second position on the second display screen, and controlling the second display screen to respond to the touch signal at the second position.

2. The display screen of claim 1, wherein the controller comprises at least a first controller and a second controller; wherein,

The first controller is configured to be connected with the touch layer and control the first display screen;

The second controller is configured to be connected to the first controller and control the second display screen.

3. A smart device comprising a display screen as claimed in any one of claims 1 to 2.

4. The smart device of claim 3, further comprising:

A housing;

the shell is arranged on the side part of the first display screen and/or the side part of the second display screen, and the touch control layer of the display screen is arranged on the outer surface of the shell.

5. A control method of an intelligent device, applied to the intelligent device as claimed in claim 3 or 4, comprising:

Receiving a touch signal output by a touch layer;

and controlling the first display screen and/or the second display screen to respond to the touch signal.

6. The control method according to claim 5, wherein the controlling the touch operation corresponding to the touch signal on the first display screen and/or the second display screen includes:

Acquiring touch position information in the touch signal;

Mapping the touch position information to a first position on the first display screen, and controlling the first display screen to respond to the touch signal at the first position; and/or mapping the touch position information to a second position on the second display screen, and controlling the second display screen to respond to the touch signal at the second position.

7. The control method according to claim 6, further comprising, after the obtaining the touch position information in the touch signal:

Mapping the touch position information to a first position on the first display screen, and controlling the first display screen to respond to the touch signal by taking the first position as a starting position; and/or mapping the touch position information to a second position on the second display screen, and controlling the second display screen to respond to the touch signal by taking the second position as a starting position.

8. The method according to claim 5, further comprising, after receiving the touch signal output by the touch layer:

determining a screen currently in an operating state and/or in a non-operating state;

and controlling the screen in the current working state to respond to the touch signal.

9. The method according to claim 8, further comprising, after receiving the touch signal output by the touch layer:

Judging whether the touch signal is an interaction signal or not;

and responding to the interaction signal, controlling the screen in the non-working state to be switched to the working state, and controlling all screens to respond to the interaction signal.

10. The control method according to claim 5, wherein in the case where the controller for displaying the screen in the smart device includes at least a first controller and a second controller, further comprising:

receiving and responding to the touch signal by the first controller, and controlling the first display screen to respond to the touch signal; or, sending the touch signal to the second controller;

and the second controller receives and responds to the touch signal sent by the first controller, and controls the second display screen to respond to the touch signal.

11. The control method according to claim 10, further comprising, after the touch signal is received by the first controller:

judging whether the touch signal is an interaction signal or not by the first controller;

Controlling the first display screen to respond to the interaction signal and sending the interaction signal to the second controller under the condition that the touch signal is the interaction signal;

And the second controller receives and responds to the interaction signal sent by the first controller, and controls the second display screen to respond to the interaction signal.