CN110928617A - Method and device for switching component elements among multiple display screens - Google Patents

Abstract

The invention provides a method and a device for switching component elements among multiple display screens, wherein the method comprises the following steps: displaying an operation window on a main display screen; the operation window corresponds to the auxiliary display screen; receiving a touch instruction on an operation window, and executing touch operation on an auxiliary display screen corresponding to the operation window according to the touch instruction; the auxiliary display screen is a display device which is distinguished from the main display screen, the main display screen and the auxiliary display screen are connected to the same processing system, and a touch screen is arranged above the main display screen. Through the technical scheme, when a user wants to perform touch operation on the auxiliary display screen, the user can perform the touch operation through the operation window on the operation main display screen, and the operation window corresponds to the auxiliary display screen, so that a touch instruction can be transmitted to the corresponding auxiliary display screen to be executed, the touch operation of each display screen is realized, and the sensory experience of the user is effectively improved on the basis of saving the cost.

Description

Method and device for switching component elements among multiple display screens

Technical Field

The invention relates to the field of computer input display, in particular to a method and a device for switching component elements among multiple display screens.

Background

With the development of science and technology and the progress of society, mobile terminals are widely used and have more and more abundant functions. Taking Android devices as an example, with the popularization of Android system devices and the continuous improvement of hardware conditions, the requirements of various industries on the Android customization functions become more and more complex, and the operation of component elements on a display screen is an important item.

In the existing android system, because the component elements displayed on each display screen all have the corresponding display IDs, when the component elements want to move from the display screen a to the display screen B, the component elements cannot be dragged to the display screen B when reaching the edge of the display screen a. By taking the mobile mouse as an example, because the mouse defaults to be displayed on the main display screen, when the mouse moves to the edge of the main display screen, the mouse cannot move to the auxiliary display screen due to the setting reason of the android system, so that the auxiliary display screen only has a display function, elements on the auxiliary display screen cannot be operated, and the sensory experience of a user is influenced.

Disclosure of Invention

Therefore, a technical scheme for switching the component elements among the multiple display screens needs to be provided, so that the problem that the sensory experience of a user is influenced due to the fact that the component elements are only displayed under one display screen under the multiple display screens and the switching of the component elements among the display screens cannot be achieved.

To achieve the above object, the inventors provide a method for switching component elements among multiple display screens, the method comprising:

presetting a corresponding relation between the display position of each component element on each display screen and a trigger condition; each display screen is connected with the same processing system;

receiving an operation instruction for a current display screen, and if the operation instruction meets a preset trigger condition when executed, adjusting the display position of a component element on the current display screen to be a target display screen; the target display screen is a display screen corresponding to a preset trigger condition.

Preferably, the method comprises:

presetting a display sequence of each display screen;

when the operation instruction is judged to be executed and the first preset trigger condition is met, adjusting the display position of the component elements on the current display screen to the display screen in the previous sequence of the current display screen in the display sequence;

and when the operation instruction is judged to be executed and the second preset trigger condition is met, adjusting the display position of the component element on the current display screen to the display screen in the next sequence of the current display screen in the display sequence.

Preferably, the first preset trigger condition includes: the component element is in contact with a first edge position of the current display screen; the second preset trigger condition comprises: the component element is in contact with a second edge location of the current display screen.

Preferably, the operation instruction comprises input track information, and the track information forms a closed loop; the preset trigger conditions comprise: the track information closed loop comprises component elements, and the received track information is matched with preset track information.

Preferably, the track information is triggered by a user touch operation or a gesture operation.

Preferably, the operation instruction further includes a drag instruction, and the preset trigger condition further includes: the component element is dragged into contact with the edge of the current display screen.

Preferably, the "adjusting the display position of the component element on the current display screen to the target display screen" includes:

and adjusting the display identification information corresponding to the component element into the identification information of the target display screen.

Preferably, the display screen includes a main display screen and more than one auxiliary display screen, and a touch screen is arranged above the main display screen.

Preferably, the component element comprises any one or more of an icon, a mouse, a window, and a file.

Preferably, the apparatus is adapted to perform the method as described hereinbefore.

The method and the device for switching the component elements among the multiple display screens in the technical scheme comprise the following steps: presetting a corresponding relation between the display position of each component element on each display screen and a trigger condition; each display screen is connected with the same processing system; receiving an operation instruction for a current display screen, and if the operation instruction meets a preset trigger condition when executed, adjusting the display position of a component element on the current display screen to be a target display screen; the target display screen is a display screen corresponding to a preset trigger condition. According to the method and the device, the display position of the component element is adjusted when the trigger condition is met by presetting the relation between the display position of the component element and the trigger condition, so that the switching of the component element among different display screens is realized, and the user experience is effectively improved.

Drawings

FIG. 1 is a schematic diagram of the display of prior art related component elements on a primary and secondary display screen;

FIG. 2 is a diagram illustrating the switching of component elements between a primary display and a secondary display according to an embodiment of the present invention;

FIG. 3 is a schematic diagram illustrating a switching principle of a mouse on multiple display screens according to an embodiment of the present invention;

FIG. 4 is a schematic diagram illustrating a switching of a mouse on multiple display screens according to another embodiment of the present invention;

FIG. 5 is a flow chart illustrating a method for switching component elements among multiple display screens according to an embodiment of the present invention;

FIG. 6 is a diagram illustrating an apparatus for switching between multiple display screens according to an embodiment of the present invention.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Fig. 1 is a schematic diagram of displaying component elements on a primary display screen and a secondary display screen according to the prior art. The component elements (such as a black arrow mouse in fig. 1) on the main display screen in the conventional android system can only be displayed on the main display screen, the component elements cannot be moved to other display screens, and for example, the component elements are used as the mouse, so that a user cannot move the mouse from the main display screen to the auxiliary display screen and can not operate the auxiliary display screen through the mouse, and the sensory experience of the user is influenced. The present application is designed to solve this problem.

Fig. 5 is a flowchart of a method for switching component elements among multiple display screens according to an embodiment of the present invention. The method comprises the following steps:

firstly, entering the corresponding relation between the display positions of the elements in the step S201 and the trigger condition; each display screen is connected with the same processing system;

then, entering an operation instruction of step S202, and if the operation instruction meets a preset trigger condition when executed, adjusting the display position of the component element on the current display screen to be a target display screen; the target display screen is a display screen corresponding to a preset trigger condition.

Like this, through the relation of the display position and the trigger condition of presetting subassembly element, when the trigger condition is satisfied, then the display position of adjustment subassembly element to realize the switching of subassembly element between different display screens, effectively promoted user experience.

In certain embodiments, the method comprises:

presetting a display sequence of each display screen;

when the operation instruction is judged to be executed and the first preset trigger condition is met, adjusting the display position of the component elements on the current display screen to the display screen in the previous sequence of the current display screen in the display sequence;

and when the operation instruction is judged to be executed and the second preset trigger condition is met, adjusting the display position of the component element on the current display screen to the display screen in the next sequence of the current display screen in the display sequence.

Preferably, the first preset trigger condition includes: the component element is in contact with a first edge position of the current display screen; the second preset trigger condition comprises: the component element is in contact with a second edge location of the current display screen.

As shown in fig. 2, the display screen corresponds to a main screen-a sub-screen a-a sub-screen B, and taking the component element as a mouse as an example, the mouse is located on the main screen at an initial stage, and when the mouse is dragged to a right edge of the main screen (i.e. the main display screen), a first preset trigger condition is triggered, that is, the display position of the mouse is moved to the sub-screen a. When the mouse moves from the left side of the sub-screen A to the right side edge of the sub-screen A, the display position of the mouse is moved from the sub-screen A to the sub-screen B. And when the mouse moves from the center of the sub-screen B to the left edge of the sub-screen B, triggering a second preset trigger condition to enable the display position of the mouse to move from the sub-screen B to the sub-screen A.

In some embodiments, the operation instruction comprises input trajectory information, the trajectory information forming a closed loop; the preset trigger conditions comprise: the track information closed loop comprises component elements, and the received track information is matched with preset track information. Preferably, the track information is triggered by a user touch operation or a gesture operation.

For example, a user may circle a component element on the main display screen through a gesture or a touch mode, when trajectory information input by the user is circular, a corresponding preset trigger condition is triggered, and if the sub-display screen corresponding to the preset trigger condition is a, the main display screen (assuming that the current display screen is the main display screen) will detect whether the component element exists in the circle when receiving a circle drawing instruction, and if so, the component element in the circle will be moved to a target display screen (e.g., the sub-display screen a). Of course, the input track information may also be other graphics, and the corresponding secondary display screen may also be of other types, which is not described herein again.

In some embodiments, the operation instruction further includes a drag instruction, and the preset trigger condition further includes: the component element is dragged into contact with the edge of the current display screen. In this embodiment, the component elements include both a mouse used for dragging and objects being dragged, such as application icons, windows, and the like. When the component element is dragged to be in contact with the edge of the current display screen, the mouse and the dragged object are moved to the target display screen together for display.

In some embodiments, "adjusting the display position of the component element on the current display screen to the target display screen" includes: and adjusting the display identification information corresponding to the component element into the identification information of the target display screen.

As shown in fig. 3, when the system is started, if A, B, C … N screens are detected in the system, the multiple screens are saved as a sequence a-B-C-N, and when the mouse on the screen a moves to the right edge, the InputDispatcher detects that the current mouse coordinate is located at the right edge, and obtains the screen sequence (i.e., the display sequence) accessed in the system, so that the next display screen of the screen a is the screen B. The system sets the display id of the mouse as the id of the screen B, sets the coordinate value of the mouse as the middle position or the left side edge of the screen B, and refreshes the interface again to enable the mouse to be displayed at the middle position or the left side edge of the screen B, so that the transition of the mouse from the screen A to the screen B is realized.

As shown in FIG. 4, the mouse is displayed on screen A, moved to the right edge of screen A, and the system customizes a set of screen display sequences A-B-C-N. When the mouse is displayed at the middle position of the screen B, the viewport width and the height of the mouse are set to be the width and the height of the display screen B (the coordinate value range when the mouse moves refers to the width and the height of the screen B), and the mouse is clicked at the moment. When the InputReader processes a mouse click event, it detects that the display id value of the mouse is the display id of the display screen B (the display id of the mouse is already set in the previous display switching process), transmits the mouse event to the window on the display screen B, and executes the corresponding mouse event by the window on the display screen B.

In some embodiments, the display screen includes a main display screen and more than one sub-display screen, and a touch screen is disposed above the main display screen. Therefore, the user can perform touch operation on the main display screen to trigger corresponding trigger conditions, so that the component elements on the main display screen are transferred to the auxiliary display screen, and further expansion of multiple display screens is realized. Preferably, the component element comprises any one or more of an icon, a mouse, a window, and a file.

In certain embodiments, the method comprises: setting an input channel set; the set of input channels comprises a plurality of input channels; setting a virtual input method application on at least one secondary display screen; and each virtual input method application corresponds to one input channel, and the information input function is realized through the input channels.

Further, the method comprises: and when the virtual input application is hidden or deleted on the secondary display screen, deleting the input channel corresponding to the virtual input application in the input channel set. And when the virtual input application is displayed on the secondary display screen, saving the input channel corresponding to the virtual input application in the input channel set. Thus, the function of synchronously receiving information input by the main display screen and the auxiliary display screen can be realized.

Fig. 6 is a schematic diagram of an apparatus for switching component elements between multiple display screens according to an embodiment of the present invention. The apparatus is for performing the method as described hereinbefore. The device comprises a main display screen 101, one or more auxiliary display screens 102 and a processing system 103, wherein the processing system 103 is connected with the main display screen 101 and each auxiliary display screen 102.

The main display screen and the auxiliary display screen are electronic elements with display functions, and can be AMOLED display screens, LCD liquid crystal display screens, micro light-emitting diode display screens, quantum dot display screens or electronic ink display screens. Of course, the user may also trigger the touch event by other means, such as pressing a button, remote controlling, and the like. The processing system comprises a processor, wherein the processor is an electronic element with a data processing function and can be a Central Processing Unit (CPU), a Microprocessor (MCU) and the like.

The invention provides a method and a device for switching component elements among multiple display screens, wherein the method comprises the following steps: displaying an operation window on a main display screen; the operation window corresponds to the auxiliary display screen; receiving a touch instruction on an operation window, and executing touch operation on an auxiliary display screen corresponding to the operation window according to the touch instruction; the auxiliary display screen is a display device which is distinguished from the main display screen, the main display screen and the auxiliary display screen are connected to the same processing system, and a touch screen is arranged above the main display screen. Through the technical scheme, when a user wants to perform touch operation on the auxiliary display screen, the user can perform the touch operation through the operation window on the operation main display screen, and the operation window corresponds to the auxiliary display screen, so that a touch instruction can be transmitted to the corresponding auxiliary display screen to be executed, the touch operation of each display screen is realized, and the sensory experience of the user is effectively improved on the basis of saving the cost.

It should be noted that, although the above embodiments have been described herein, the invention is not limited thereto. Therefore, based on the innovative concepts of the present invention, the technical solutions of the present invention can be directly or indirectly applied to other related technical fields by making changes and modifications to the embodiments described herein, or by using equivalent structures or equivalent processes performed in the content of the present specification and the attached drawings, which are included in the scope of the present patent.

Claims (10)

1. A method for switching component elements between multiple display screens, the method comprising:

presetting a corresponding relation between the display position of each component element on each display screen and a trigger condition; each display screen is connected with the same processing system;

receiving an operation instruction for a current display screen, and if the operation instruction meets a preset trigger condition when executed, adjusting the display position of a component element on the current display screen to be a target display screen; the target display screen is a display screen corresponding to a preset trigger condition.

2. A method of switching component elements between multiple display screens according to claim 1, the method comprising:

presetting a display sequence of each display screen;

when the operation instruction is judged to be executed and the first preset trigger condition is met, adjusting the display position of the component elements on the current display screen to the display screen in the previous sequence of the current display screen in the display sequence;

and when the operation instruction is judged to be executed and the second preset trigger condition is met, adjusting the display position of the component element on the current display screen to the display screen in the next sequence of the current display screen in the display sequence.

3. The method of claim 2, wherein the first preset trigger condition comprises: the component element is in contact with a first edge position of the current display screen; the second preset trigger condition comprises: the component element is in contact with a second edge location of the current display screen.

4. The method of claim 1, wherein the operation command comprises inputting trajectory information, the trajectory information forming a closed loop; the preset trigger conditions comprise: the track information closed loop comprises component elements, and the received track information is matched with preset track information.

5. The method for switching between multiple display screens of component elements according to claim 4, wherein the trace information is triggered by a user touch operation or a gesture operation.

6. The method for switching component elements among multiple display screens according to claim 4, wherein the operation instruction further comprises a drag instruction, and the preset trigger condition further comprises: the component element is dragged into contact with the edge of the current display screen.

7. The method for switching between multiple display screens of a component element according to claim 1, wherein the "adjusting the display position of the component element on the current display screen to the target display screen" comprises:

and adjusting the display identification information corresponding to the component element into the identification information of the target display screen.

8. The method for switching component elements among multiple display screens according to claim 1, wherein the display screens comprise a main display screen and more than one auxiliary display screen, and a touch screen is arranged above the main display screen.

9. The method for switching between multi-display screens of a component element according to any one of claims 1 to 8, wherein the component element comprises any one or more of an icon, a mouse, a window, a file.

10. An apparatus for switching component elements between multiple display screens, the apparatus being adapted to perform the method of any of claims 1 to 9.

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