CN106610784B - Control method and system for multi-system touch screen - Google Patents

Abstract

The invention relates to a control method and a system of a multi-system touch screen, which monitor display instructions of other system interfaces of the terminal touch screen except a first system interface when the first system interface is displayed on the terminal touch screen; when a display instruction of a second system interface is monitored, a target area of the terminal touch screen is determined, touch functions of other system interfaces except the second system interface corresponding to the target area are closed, and at the moment, as long as touch operation of a user is in an area where the second system interface to be displayed is located on the terminal touch screen, touch data cannot be sent to the other system interfaces except the second system interface, touch function switching is achieved, and misoperation caused by penetration of touch actions is avoided.

Description

Control method and system for multi-system touch screen

Technical Field

The invention relates to the technical field of display control application, in particular to a control method and a control system for a multi-system touch screen.

Background

In the technical field of display, a terminal can display information on a screen interface of the terminal, and when a user needs to operate the information on the screen interface of the terminal, the user can perform corresponding operation on a touch screen of the terminal. With the development of the technology, two different systems can be operated in the terminal, at this time, the touch function of the touch screen needs to serve the two systems at the same time, but if the two systems start the touch function at the same time, touch data is sent to the two systems at the same time, and when the two systems operate on the terminal at the same time, the touch action on the interface of one system on the touch screen penetrates through the interface of the other system, thereby causing misoperation.

Disclosure of Invention

Therefore, it is necessary to provide a control method and system for a multi-system touch screen to solve the problem that the conventional touch screen causes penetration of touch actions.

A control method of a multi-system touch screen comprises the following steps:

when a first system interface is displayed on a terminal touch screen, monitoring display instructions of other system interfaces of the terminal touch screen except the first system interface;

when a display instruction of a second system interface is monitored, determining a target area of a terminal touch screen, wherein the target area is an area corresponding to the second system interface to be displayed on the terminal touch screen;

and closing the touch functions of other system interfaces except the second system interface corresponding to the target area.

A control system of a multi-system touch screen comprises the following units:

the monitoring unit is used for monitoring display instructions of other system interfaces of the terminal touch screen except the first system interface when the first system interface is displayed on the terminal touch screen;

the area determining unit is used for determining a target area of the terminal touch screen when a display instruction of a second system interface is monitored, wherein the target area is an area corresponding to the second system interface to be displayed on the terminal touch screen;

and the execution unit is used for closing the touch functions of other system interfaces except the second system interface corresponding to the target area.

According to the control method and the control system of the multi-system touch screen, when a first system interface is displayed on the terminal touch screen, display instructions of other system interfaces of the terminal touch screen except the first system interface are monitored; when a display instruction of a second system interface is monitored, a target area of the terminal touch screen is determined, touch functions of other system interfaces except the second system interface corresponding to the target area are closed, and at the moment, as long as touch operation of a user is in an area where the second system interface to be displayed is located on the terminal touch screen, touch data cannot be sent to the other system interfaces except the second system interface, touch function switching is achieved, and misoperation caused by penetration of touch actions is avoided.

Drawings

FIG. 1 is a flowchart illustrating a control method for a multi-system touch screen according to an embodiment;

FIG. 2 is a schematic structural diagram of a control system of a multi-system touch screen according to an embodiment;

FIG. 3 is a schematic structural diagram of a control system of a multi-system touch screen according to an embodiment;

FIG. 4 is a schematic structural diagram of a control system of a multi-system touch screen according to an embodiment;

fig. 5 is a schematic diagram of an actual application of the control system of the multi-system touch screen according to one embodiment.

Detailed Description

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

Fig. 1 is a schematic flow chart of a control method of a multi-system touch screen according to an embodiment of the present invention. The control method of the multi-system touch screen in the embodiment comprises the following steps:

step S101: when a first system interface is displayed on a terminal touch screen, monitoring display instructions of other system interfaces of the terminal touch screen except the first system interface;

in this step, monitoring display instructions of other system interfaces of the terminal touch screen except the first system interface to judge whether the terminal touch screen needs to display the other system interfaces except the first system interface;

step S102: when a display instruction of a second system interface is monitored, determining a target area of a terminal touch screen, wherein the target area is an area corresponding to the second system interface to be displayed on the terminal touch screen;

in this step, the second system interface is any one of the other system interfaces except the first system interface;

step S103: and closing the touch functions of other system interfaces except the second system interface corresponding to the target area.

In this embodiment, when a first system interface is displayed on a terminal touch screen, monitoring display instructions of other system interfaces of the terminal touch screen except the first system interface; when a display instruction of a second system interface is monitored, a target area of the terminal touch screen is determined, touch functions of other system interfaces except the second system interface corresponding to the target area are closed, and at the moment, as long as touch operation of a user is in an area where the second system interface to be displayed is located on the terminal touch screen, touch data cannot be sent to the other system interfaces except the second system interface, touch function switching is achieved, and misoperation caused by penetration of touch actions is avoided.

Preferably, the touch functions of the other system interfaces except the second system interface corresponding to the area of the second system interface to be displayed on the terminal touch screen are turned off, and the touch functions of the other system interfaces except the second system interface in the other areas are not turned off except the area on the terminal touch screen, that is, the touch functions of the areas not overlapped with the second system interface in the other system interfaces except the second system interface are still valid. Therefore, the simultaneous operation of the multi-system touch control function can be realized.

In one embodiment, the step of determining the target area of the terminal touch screen further includes the following steps:

acquiring address data of a target area;

acquiring a control command according to the address data, wherein the control command is associated with other system interfaces except the second system interface;

the step of closing the touch functions of the other system interfaces except the second system interface corresponding to the target area comprises the following steps:

and closing the touch functions of other system interfaces except the second system interface corresponding to the target area according to the control command.

In this embodiment, after the target area of the terminal touch screen is determined, to facilitate control over the target area, address data of the target area may be obtained, and a corresponding control command may be obtained according to the address data, where the control command is associated with other system interfaces except the second system interface, and may control touch functions of the other system interfaces except the second system interface on the terminal touch screen. The area needing to be controlled can be correctly selected in the terminal touch screen through the form of address data.

In one embodiment, the step of obtaining the address data of the target area comprises the steps of:

dividing a display area of a terminal touch screen into a plurality of sub-areas;

acquiring the position of a second system interface to be displayed on a terminal touch screen, and determining each target subarea occupied by the second system interface to be displayed according to the position;

and acquiring the address data of each target sub-area, and taking the address data of all the target sub-areas as the address data of the target area.

In this embodiment, a display area of the terminal touch screen is first divided into a plurality of sub-areas, each target sub-area occupied by the second system interface to be displayed is determined according to the position of the second system interface to be displayed, and the whole of all the target sub-areas is used as the area where the second system interface to be displayed is located on the terminal touch screen. Through the division of the display area of the terminal touch screen, the area of the second system interface to be displayed on the terminal touch screen can be conveniently determined.

Preferably, the sizes of the plurality of sub-regions may be the same, so that the display region is divided, and the types and sizes of the address data of the sub-regions are unified.

In one embodiment, each sub-area is provided with an independent control communication address protocol.

In this embodiment, each sub-area has an independent control communication address protocol, so that each sub-area can be controlled independently, and the address data of a plurality of target sub-areas are used for simultaneous control, so that even if there is an individual target sub-area that cannot respond to a control command for various reasons, the area where the second system interface to be displayed is located on the terminal touch screen is not greatly affected. In addition, touch function control of other system interfaces can be customized in any area of the touch screen.

In one embodiment, the multiple systems comprise a PC system and an Android system.

In this embodiment, multiple systems of the terminal may be a PC (personal computer) system and an Android (Android) system, and when the currently displayed system interface is the PC system, the first system is the PC system, and the second system is the Android system; when the currently displayed system interface is an Android system, the first system is the Android system, and the second system is a PC system.

In addition, the multisystem is not limited to the PC system and the Android system, and may be applied to other operating systems. When there are more than two systems, the first system and the second system may be any two of them, the first system is a displayed system, and the second system is a system to be displayed.

According to the control method of the multi-system touch screen, the invention also provides a control system of the multi-system touch screen, and the embodiment of the control system of the multi-system touch screen is explained in detail below.

Fig. 2 is a schematic structural diagram of a control system of a multi-system touch screen according to an embodiment of the present invention. The control system of the multi-system touch screen in the embodiment comprises the following units:

the monitoring unit 210 is configured to monitor display instructions of other system interfaces of the terminal touch screen except the first system interface when the first system interface is displayed on the terminal touch screen;

the area determining unit 220 is configured to determine a target area of the terminal touch screen when a display instruction of the second system interface is monitored, where the target area is an area of the second system interface to be displayed, which corresponds to the second system interface on the terminal touch screen;

the execution unit 230 is configured to close the touch functions of the other system interfaces except the second system interface corresponding to the target area.

In one embodiment, as shown in fig. 3, the control system of the multi-system touch screen further includes an address obtaining unit 240 and a command obtaining unit 250;

the address acquisition unit 240 is configured to acquire address data of the target area;

the command acquiring unit 250 is configured to acquire a control command according to the address data, where the control command is associated with a system interface other than the second system interface;

the execution unit 230 is configured to close the touch functions of the other system interfaces except the second system interface corresponding to the target area according to the control command.

In one embodiment, as shown in fig. 4, the address obtaining unit 240 includes a dividing unit 241, a positioning unit 242, and an address determining unit 243;

the dividing unit 241 is configured to divide a display area of the terminal touch screen into a plurality of sub-areas;

the positioning unit 242 is configured to obtain a position of the second system interface to be displayed on the terminal touch screen, and determine each target sub-area occupied by the second system interface to be displayed according to the position;

the address determining unit 243 is configured to obtain address data of each target sub-area, and use the address data of all the target sub-areas as address data of an area where the second system interface to be displayed is located on the terminal touch screen.

In one embodiment, each sub-area is provided with an independent control communication address protocol.

In one embodiment, the multiple systems comprise a PC system and an Android system.

The control system of the multi-system touch screen and the control method of the multi-system touch screen are in one-to-one correspondence, and the technical characteristics and the beneficial effects described in the embodiment of the control method of the multi-system touch screen are all applicable to the embodiment of the control system of the multi-system touch screen.

In a specific embodiment, the control system of the multi-system touch screen can be applied to an intelligent interactive tablet, and the intelligent interactive tablet can be a dual-system touch tablet of an Android system and a PC system.

As shown in fig. 5, the monitoring unit and the execution unit may be integrated in a single chip Microcomputer (MCU), the single chip microcomputer is connected to the touch screen through a serial communication module and a USB communication module, the Android system and the PC system are connected to the single chip microcomputer, the Android system communicates with the touch screen through the single chip microcomputer and the serial communication module, and the PC system communicates with the touch screen through the single chip microcomputer and the USB communication module.

The single chip microcomputer sets one or more rectangular 'non-penetration regions' on the touch screen through the serial port communication module or the USB communication module, the touch screen is divided into a plurality of independent sub-regions, each sub-region is provided with an independent control communication address protocol, and the sending/receiving message format can be defined through software.

Under the PC system interface, when any region of the touch screen needs to call out the android operation tool window through the serial port communication module, the single chip microcomputer obtains the address of the corresponding region through the USB communication module, sends a control command of the address of the corresponding region to the touch screen, and independently and temporarily closes the PC touch function of the PC system corresponding to the display region of the android operation tool window, so that as long as the touch operation of a user is in the corresponding region, touch data cannot be sent to the PC system, and therefore touch actions are prevented from penetrating.

Under an Android system interface, when any area of a touch screen needs to call out a PC system operating window through a USB communication module, a single chip microcomputer obtains an address of the corresponding area through a serial port communication module, sends a control command of the address of the corresponding area to the touch screen, independently and temporarily closes an Android touch function of the Android system corresponding to a display area of the PC system operating window, and touch data cannot be sent to the Android system as long as a user operates the touch screen in the corresponding area, so that touch actions are prevented from penetrating.

Preferably, when the PC system is switched to, the android system is an auxiliary system, the touch function of the PC system and the touch function of the android system work simultaneously, the touch function of the android system serves the PC system simultaneously, the android touch command cannot be executed as long as the android function command is not triggered in the operation of the PC system, when the android function command is executed, the interface of the corresponding PC system is shielded according to the position of an android function window, at the moment, coordinate data do not occur at the shielded position of the PC system, and how large the window coverage of the android function is to shield how large the touch area of the PC system is. When the window of the android function is hidden or closed, the MCU retransmits the region coordinate data, and at the moment, all the region touch functions of the PC system are recovered;

when the android system is switched, the touch function of the PC system is closed by the MCU, so that the problem of misoperation that the touch penetrates through the PC system is avoided; similarly, when the operation window of the PC system needs to be called out, the corresponding android system interface can be shielded according to the operation window of the PC system. When the PC system is switched back, the touch function of the PC is turned on again, the PC is the main one, and the android is the auxiliary one.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A control method of a multi-system touch screen is characterized by comprising the following steps:

when a first system interface is displayed on a terminal touch screen, monitoring display instructions of other system interfaces of the terminal touch screen except the first system interface;

when a display instruction of a second system interface is monitored, determining a target area of the terminal touch screen, wherein the target area is an area corresponding to the second system interface to be displayed on the terminal touch screen;

closing the touch functions of other system interfaces except the second system interface corresponding to the target area;

the step of determining the target area of the terminal touch screen further comprises the following steps:

acquiring address data of the target area through the USB communication module or the serial port communication module corresponding to the other system interfaces except the second system interface;

acquiring a control command according to the address data, wherein the control command is associated with the other system interfaces except the second system interface;

the step of turning off the touch functions of the other system interfaces except the second system interface corresponding to the target area comprises the following steps:

and according to the control command, closing the touch functions of other system interfaces except the second system interface corresponding to the target area.

2. The method for controlling the multi-system touch screen according to claim 1, wherein the step of obtaining the address data of the target area comprises the steps of:

dividing a display area of the terminal touch screen into a plurality of sub-areas;

acquiring the position of the second system interface to be displayed on the terminal touch screen, and determining each target subarea occupied by the second system interface to be displayed according to the position;

and acquiring address data of each target sub-area, and taking the address data of all the target sub-areas as the address data of the target area.

3. The method of claim 2, wherein each sub-area has an independent control communication address protocol.

4. The method for controlling the multi-system touch screen according to any one of claims 1 to 3, wherein the multi-system comprises a PC system and an Android system.

5. A control system of a multi-system touch screen is characterized by comprising the following units:

the monitoring unit is used for monitoring display instructions of other system interfaces of the terminal touch screen except the first system interface when the first system interface is displayed on the terminal touch screen;

the area determining unit is used for determining a target area of the terminal touch screen when a display instruction of a second system interface is monitored, wherein the target area is an area corresponding to the second system interface to be displayed on the terminal touch screen;

the execution unit is used for closing the touch functions of other system interfaces except the second system interface corresponding to the target area;

the address acquisition unit is used for acquiring the address data of the target area through the USB communication module or the serial communication module corresponding to the other system interfaces except the second system interface;

the command acquisition unit is used for acquiring a control command according to the address data, wherein the control command is associated with the other system interfaces except the second system interface;

the execution unit is used for closing the touch functions of other system interfaces except the second system interface corresponding to the target area according to the control command.

6. The control system of the multi-system touch screen according to claim 5, wherein the address acquisition unit comprises a dividing unit, a positioning unit and an address determination unit;

the dividing unit is used for dividing a display area of the terminal touch screen into a plurality of sub-areas;

the positioning unit is used for acquiring the position of the second system interface to be displayed on the terminal touch screen and determining each target subarea occupied by the second system interface to be displayed according to the position;

the address determining unit is configured to obtain address data of each target sub-region, and use the address data of all the target sub-regions as the address data of the target region.

7. The control system of the multi-system touch screen of claim 6, wherein each sub-area is provided with an independent control communication address protocol.

8. The control system of the multi-system touch screen according to any one of claims 5 to 7, wherein the multi-system comprises a PC system and an Android system.

9. A readable storage medium on which an executable program is stored, wherein the executable program, when executed by a processor, implements the steps of the method for controlling a multi-system touch screen according to any one of claims 1 to 4.

10. A computer device comprising a memory and a processor, the memory storing an executable program, wherein the processor implements the steps of the method for controlling a multi-system touch screen according to any one of claims 1 to 4 when executing the executable program.

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