CN114296575A - Touch interaction method and device, storage medium and computer equipment - Google Patents

Abstract

The embodiment of the invention discloses a touch interaction method, a touch interaction device, a storage medium and computer equipment, wherein the touch interaction method is applied to touch display equipment, the touch display equipment is connected with an OPS (optical touch system) terminal, the OPS terminal comprises a first system, the signal source of a touch instruction is identified after the touch instruction input by touch is received, whether the signal source conforms to the second system is judged, if so, a virtual key corresponding to the signal source belongs to the second system, the touch instruction is sent to the OPS terminal, the OPS terminal receives the touch instruction, the second system responds to the touch operation corresponding to the touch instruction, if not, the virtual key corresponding to the signal source belongs to the first system, and the first system directly responds to the touch operation corresponding to the touch instruction. By the method, each system processes the touch operation of the virtual keys within the range, and the problem of touch transparent transmission is solved.

Description

Touch interaction method and device, storage medium and computer equipment

Technical Field

The invention relates to the technical field of touch equipment, in particular to a touch interaction method, a touch interaction device, a storage medium and computer equipment.

Background

With the continuous development of wireless technology, liquid crystal technology and intelligent systems, display equipment develops towards the direction of large size, high definition, ultra-thin and multi-system, the display equipment with single function can not meet the living and working requirements of people far, and the display equipment with interactive, intelligent and wireless high definition intelligent multi-system becomes the first choice of the public.

The display equipment can realize multiple systems in a connection mode, at present, the system of the display equipment is an Android system, the system is preset with a plurality of application programs, when the display equipment is connected into a Windows system, the preset application programs and the application programs downloaded by the Windows system are displayed on the screen of the display equipment at the same time, and when a certain preset Android application program is started and controlled, the problem that a click event is transmitted to the application program of the Windows system, namely the problem of touch transparent transmission is generated.

Disclosure of Invention

The embodiment of the invention provides a touch interaction method, a touch interaction device, a storage medium and computer equipment thereof.

In a first aspect, an embodiment of the present invention provides a touch interaction method, which is applied to a touch display device, where the touch display device is connected to an OPS terminal, the touch display device includes a first system, the OPS terminal includes a second system, and the method includes:

receiving a touch instruction of touch input;

identifying a signal source corresponding to the touch instruction;

judging whether the signal source conforms to the second system;

if so, the touch display equipment sends the touch instruction to the OPS terminal, the OPS terminal receives the touch instruction, and the second system responds to the touch operation corresponding to the touch instruction;

and if not, the first system directly responds to the touch operation corresponding to the touch instruction.

In a second aspect, an embodiment of the present invention provides a touch interaction apparatus, which is applied to a touch display device, where the touch display device is connected to an OPS terminal, the touch display device includes a first system, the OPS terminal includes a second system, and the apparatus includes:

the receiving unit is used for receiving a touch instruction input by touch;

the signal source identification unit is used for identifying a signal source corresponding to the touch instruction;

the system judgment unit is used for judging whether the signal source conforms to the second system, if so, the touch display equipment sends the touch instruction to the OPS terminal, the OPS terminal receives the touch instruction, the second system responds to the touch operation corresponding to the touch instruction, and if not, the first system directly responds to the touch operation corresponding to the touch instruction.

In a third aspect, an embodiment of the present invention further provides a storage medium, where a plurality of instructions are stored in the storage medium, and the instructions are adapted to be loaded by a processor to perform the touch interaction method described above.

In a fourth aspect, an embodiment of the present invention further provides a computer device, which includes a touch display device, where the touch display device is connected to an OPS terminal, and the touch display device and the OPS terminal are used to execute the touch interaction method.

In the embodiment of the invention, a touch display device is connected with an OPS terminal, the touch display device comprises a first system, the OPS terminal comprises a second system, after receiving a touch instruction input by touch, a signal source of the touch instruction is identified, whether the signal source conforms to the second system is judged, if so, a virtual key corresponding to the signal source belongs to the second system, the touch instruction is sent to the OPS terminal, the OPS terminal receives the touch instruction, the second system responds to the touch operation corresponding to the touch instruction, if not, the virtual key corresponding to the signal source belongs to the first system, and the first system directly responds to the touch operation corresponding to the touch instruction. By the method, each system processes the touch operation of the virtual keys within the range, and the problem of touch transparent transmission is solved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a flowchart of a touch interaction method provided in an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a touch interaction device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The embodiment of the application provides a touch interaction method, a touch interaction device, a storage medium and computer equipment, which are used for solving the problem of touch transparent transmission in the prior art, and the touch interaction method, the touch interaction device, the storage medium and the computer equipment are respectively described in detail below.

Referring to fig. 1, fig. 1 is a flowchart of a touch interaction method provided in an embodiment of the present application, where the method is applied to a touch display device, the touch display device includes a first system, the first system is a system built in the device itself and is a core of the entire device, an OPS terminal includes a second system, the second system is a core of the OPS terminal, and the touch display device is connected to the OPS terminal.

In the embodiment of the application, the OPS terminal is connected to the touch display device in a USB serial port connection mode, the downloaded application program of the OPS terminal is displayed through a touch screen of the touch display device, and the application program is controlled.

In other embodiments, the OPS terminal is connected with the touch display device by a wireless connection.

Alternatively, the touch display device may be connected to one OPS terminal, or may be connected to a plurality of OPS terminals, where the number of the connected OPS terminals is not limited, and the following description specifically describes that the touch display device is connected to one OPS terminal as an example.

Specifically, the touch interaction method provided by the embodiment of the present application includes:

101. and receiving a touch instruction of touch input.

The touch display device comprises a plurality of first application programs, the touch screen of the touch display device can display the plurality of first application programs after the touch display device is started, the OPS terminal comprises a plurality of second application programs, and the touch screen of the touch display device can display the plurality of first application programs and the plurality of second application programs after the touch display device is connected with the OPS terminal.

Or, the touch display device includes a plurality of first applications, the plurality of first applications include a plurality of preset applications, the preset applications exist when the system is set, and are not downloaded subsequently by the user, the OPS terminal includes a plurality of second applications, and after the touch display device is combined with the external OPS terminal, the touch screen of the touch display device displays the plurality of preset applications and the second applications.

Or, the touch display device includes a plurality of first applications, the user can set the floating applications according to the preference and the requirement of the user, the OPS terminal includes a plurality of second applications, and after the touch display device is connected with the OPS terminal, the touch screen of the touch display device displays the plurality of floating applications and the second applications.

The user performs touch operation on the touch screen in a touch mode, so that the touch screen receives a touch instruction input by touch, and certain operation is realized.

Optionally, the first application programs and the second application programs may be regarded as virtual keys.

Optionally, in other embodiments, before receiving the touch instruction input by touch, the method further includes determining whether a touch screen of the touch display device is in a screen lock state, if so, the touch screen displays screen start information, the touch instruction input by touch is invalid, and if not, the touch instruction input by touch is received.

102. And identifying a signal source corresponding to the touch instruction.

The signal source is a source of the signal, when a certain application program is touched and clicked, the signal source is generated for the application program, and the system to which the corresponding application program belongs can be known according to the signal source.

103. And judging whether the signal source is consistent with the second system, if so, executing step 1031, and if not, executing step 1032.

After generating the signal source, the signal source may be generated by the first virtual key or the second virtual key, when the signal source is generated by the first virtual key, the signal source corresponds to the first system and is controlled and responded by the first system, and when the signal source is generated by the second virtual key, the signal source corresponds to the second system and is controlled and responded by the second system.

1031. The touch display equipment sends the touch instruction to the OPS terminal, the OPS terminal receives the touch instruction, and the second system responds to the touch operation corresponding to the touch instruction.

And when the signal source corresponding to the touch instruction is judged to be consistent with the second system, the corresponding virtual key belongs to the second system, and the corresponding touch instruction is received and processed by the second system.

Because the touch screen belongs to the touch display device, a touch instruction is generated by touching the touch screen, and a signal source of the touch instruction is consistent with the second system, the touch display device sends the touch instruction to the OPS terminal, and the second system of the OPS terminal receives and responds to the corresponding touch operation.

1032. And the first system directly responds to the touch operation corresponding to the touch instruction.

And when the signal source corresponding to the touch instruction is judged not to be consistent with the second system, the corresponding virtual key belongs to the first system, and the corresponding touch instruction is received and processed by the first system.

Because the touch screen belongs to the touch display device, a touch instruction is generated by touching the touch screen, and a signal source of the touch instruction conforms to the first system, and the first system directly corresponds to the corresponding touch operation.

The touch interaction method of the embodiment of the application is applied to a touch display device, the touch display device is connected with an OPS terminal, the touch display device comprises a first system, the OPS terminal comprises a second system, after a touch instruction input by touch is received, a signal source of the touch instruction is identified, whether the signal source conforms to the second system is judged, if the signal source conforms to the second system, a virtual key corresponding to the signal source belongs to the second system, the touch instruction is sent to the OPS terminal corresponding to the second system, the OPS terminal receives the touch instruction, the second system responds to the touch operation corresponding to the touch instruction, if the signal source does not conform to the second system, the virtual key corresponding to the signal source belongs to the first system, the first system directly responds to the touch operation corresponding to the touch instruction, and by the above mode, each system processes the touch operation including the virtual keys within a range, the problem of touch transparent transmission is solved.

Optionally, in some embodiments, step 102 includes the following:

1021. and judging whether a first virtual key exists in the input position of the touch instruction, if not, the touch instruction input by touch is invalid, and if so, executing step 1022.

Because virtual keys exist in possible partial positions on the touch screen of the touch display device, the partial positions are vacant positions, and the virtual keys do not exist, after the touch display device receives a touch instruction, whether the virtual keys exist in the input position is judged, and whether the touch instruction is effective is judged.

And when the virtual key does not exist in the input position of the touch instruction, determining that the position is a vacant position, determining that the touch instruction is invalid, and otherwise, triggering to execute the next step when the virtual key exists in the position.

1022. And judging whether a second virtual key exists in the input position, if not, generating the signal source by the first virtual key, and if so, executing the step 1023.

After judging that a first virtual key exists in an input position of a touch instruction, judging whether a second virtual key exists in the input position, so that whether a superposed virtual key exists in the input position can be known, defining the first virtual key as a virtual key on touch display equipment, and defining the second virtual key as a virtual key on a connected OPS terminal, wherein the superposed virtual key is defined as the first virtual key containing the touch display equipment and the second virtual key of the OPS terminal, namely, one first virtual key and one second virtual key are located at the same position.

And when the second virtual key does not exist in the input position of the touch instruction, determining that the signal source of the touch instruction is generated by the first virtual key, and otherwise, triggering and executing the next step.

1023. And judging whether the first virtual key is positioned on the upper layer of the second virtual key, if so, generating the signal source by the first virtual key, and if not, generating the signal source by the second virtual key.

After the touch display device is connected to the OPS terminal, the system may default that the application layer of the OPS terminal is located above the application layer of the touch display device, that is, the application layer of the OPS terminal floats above the application layer of the touch display device, in the absence of the switching operation and the touch operation.

Accordingly, two situations may occur when touching the touch screen of the display device: the first situation is that the touch screen displays all the applications of the OPS terminal and the touch display device, that is, the touch screen displays all the second applications and all the first applications, and the second applications float above the first applications; in the second case, the touch screen displays all the second applications of the OPS terminal and a part of the first applications of the touch display device, and the second applications float above the first applications.

Optionally, in the second case, part of the first application may be a preset application, or an application that is set by the user according to the preference and the need of the user.

When the application layer of the OPS terminal floats above the application layer of the touch display device and the superposed virtual keys exist in the input position of the touch instruction, the system can determine that the signal source generated by the touch of the input position is generated by the virtual keys positioned above the input position, and then determine that the signal source of the input position is generated by the second virtual key.

After the user performs switching or after the user redefines the position of the application layer, the application layer of the touch display device is located above the OPS terminal, that is, the application layer of the touch display device floats above the application layer of the OPS terminal.

When the application layer of the touch display device floats above the application layer of the OPS terminal and the superposed virtual keys exist in the input position of the touch instruction, the system can determine that the signal source generated by the touch of the input position is generated by the virtual keys positioned above the input position, and then determine that the signal source of the input position is generated by the first virtual key.

Optionally, the user sets a first floating window and a second floating window according to the user's own needs and preferences, the first floating window includes a plurality of first applications added by the user, the second floating window includes a plurality of second applications added by the user, when the application layer of the touch display device floats above the application layer of the OPS terminal, a second floating window is displayed on the touch screen, when the superposed virtual key exists in the input position of the touch instruction, and in addition, when the input position is located in the second floating window, the signal source defaults to be generated by a second virtual key at a corresponding position in the second floating window, and conversely, when the application layer of the OPS terminal floats on the application layer of the touch display equipment, a first floating window is displayed on the touch screen, when the superposed virtual key exists in the input position of the touch instruction, and in addition, when the input position is located in the first floating window, the signal source defaults to be generated by the first virtual key at the corresponding position in the first floating window.

Optionally, in some embodiments, step 102 includes the following:

1021. and judging whether a first virtual key exists in the input position of the touch instruction, if not, the touch instruction input by touch is invalid, and if so, executing step 1022.

Because virtual keys exist in possible partial positions on the touch screen of the touch display device, the partial positions are vacant positions, and the virtual keys do not exist, after the touch display device receives a touch instruction, whether the virtual keys exist in the input position is judged, and whether the touch instruction is effective is judged.

And when the virtual key does not exist in the input position of the touch instruction, determining that the position is a vacant position, determining that the touch instruction is invalid, and otherwise, triggering to execute the next step when the virtual key exists in the position.

1022. And judging whether a second virtual key exists in the input position, if not, generating the signal source by the first virtual key, and if so, executing the step 1023.

After judging that a first virtual key exists in an input position of a touch instruction, judging whether a second virtual key exists in the input position, so that whether a superposed virtual key exists in the input position can be known, defining the first virtual key as a virtual key on touch display equipment, and defining the second virtual key as a virtual key on a connected OPS terminal, wherein the superposed virtual key is defined as the first virtual key containing the touch display equipment and the second virtual key of the OPS terminal, namely, one first virtual key and one second virtual key are located at the same position.

And when the second virtual key does not exist in the input position of the touch instruction, determining that the signal source of the touch instruction is generated by the first virtual key, and otherwise, triggering and executing the next step.

1023. And judging whether the priority of the first virtual key is higher than that of the second virtual key, if so, generating the signal source by the first virtual key, and if not, generating the signal source by the second virtual key.

After the touch display device is connected to the OPS terminal, all or part of the virtual keys of the touch display device and the OPS terminal are displayed on the touch screen, and in the case of no switching operation or touch operation, the priority of the virtual key of the connected terminal can be higher than that of the virtual key of the system itself by default.

For example, the virtual key of the system of the touch display device itself is set as a first virtual key, and the virtual key of the system of the OPS terminal is set as a second virtual key, so that after the OPS terminal is connected, the priority of the second virtual key displayed on the touch screen is higher than that of the first virtual key under the condition of no switching operation and no touch operation, and when there is a superimposed virtual key at the input position of the touch instruction, that is, one first virtual key and one second virtual key are located at the same position, the second virtual key responds, and the signal source is generated by the second virtual key due to the higher priority of the second virtual key.

The priority changes after the user switches or after the user re-sets and defines the virtual keys of the own system and the connected system.

For example, if the priority of a first application program of the touch display device is set by the user to be higher, and if the first application program and a second application program are overlapped, the touch action response is in response to the first application program, then the signal source of the input position is generated by the first application program, and the icon of the application program is a virtual key.

Optionally, in some embodiments, step 102 includes the following:

1021. and judging whether a first virtual key exists in the input position of the touch instruction, if not, the touch instruction input by touch is invalid, and if so, executing step 1022.

Because virtual keys exist in possible partial positions on the touch screen of the touch display device, the partial positions are vacant positions, and the virtual keys do not exist, after the touch display device receives a touch instruction, whether the virtual keys exist in the input position is judged, and whether the touch instruction is effective is judged.

And when the virtual key does not exist in the input position of the touch instruction, determining that the position is a vacant position, determining that the touch instruction is invalid, and otherwise, triggering to execute the next step when the virtual key exists in the position.

1022. And judging whether a second virtual key exists in the input position, if not, generating the signal source by the first virtual key, and if so, executing the subsequent steps.

After judging that a first virtual key exists in an input position of a touch instruction, judging whether a second virtual key exists in the input position, so that whether a superposed virtual key exists in the input position can be known, defining the first virtual key as a virtual key on touch display equipment, and defining the second virtual key as a virtual key on a connected OPS terminal, wherein the superposed virtual key is defined as the first virtual key containing the touch display equipment and the second virtual key of the OPS terminal, namely, one first virtual key and one second virtual key are located at the same position.

And when the second virtual key does not exist in the input position of the touch instruction, determining that the signal source of the touch instruction is generated by the first virtual key, and otherwise, triggering and executing the subsequent steps.

1023. And the touch screen of the touch display equipment displays the selection information.

After the first virtual key and the second virtual key which are overlapped are judged to exist in the input position of the touch instruction, the touch screen displays selection information, the selection information comprises a first selection key corresponding to the first virtual key and a second selection key corresponding to the second virtual key, and a user selects the first selection key or the second selection key through touch.

1024. And receiving an input selection instruction.

The user touches and selects one of the selection keys, a corresponding selection instruction is generated, the selection instruction corresponds to the first virtual key or the second virtual key, and the selection instruction is received.

1025. And judging whether the selection instruction corresponds to a first virtual key, if so, generating the signal source by the first virtual key, and if not, generating the signal source by the second virtual key.

And receiving a selection instruction input by a user, and judging that the selection instruction corresponds to the first virtual key or the second virtual key so as to respond to the corresponding virtual key.

If the selection instruction corresponds to the first virtual key, the system responds to the first virtual key if the signal source is generated by the first virtual key; if the selection instruction corresponds to the second virtual key, the system responds to the second virtual key by considering that the signal source is generated by the second virtual key.

Optionally, when the touch screen has the first virtual key and the second virtual key which are superposed, and when the first virtual key floats above the second virtual key and the user wants to operate the second virtual key which is located below, the user can move the first virtual key which is located above to other vacant positions in a manual long-time pressing movement mode, and then click the second virtual key through touch, so as to realize operation.

Optionally, when a certain first application is started, the display page of the first application is presented, and a plurality of second applications exist below the display page, so that some virtual keys in the display page may be located at the same positions as some second applications, and at this time, the signal source generated by the system default touch is generated by the virtual keys in the display page.

Optionally, when a plurality of first applications and a plurality of second applications are displayed on the touch screen, and when the first application and the second application are superimposed in some input positions, the user may set that double-clicking in the input position is to start the first application within a preset time, and three times of clicking within the preset time is to start the second application.

Optionally, when a plurality of first applications and a plurality of second applications are displayed on the touch screen, and there are some input positions with the first application and the second application overlapped, when the user clicks the position where the overlapped application exists, the position displays a rectangular blank frame, and the user inputs an icon line of the first application or the second application overlapped with the input position in the rectangular blank frame, or the user inputs a name of the first application or the second application overlapped with the input position in the rectangular blank frame, then the application corresponding to the input position is started.

Optionally, after receiving the touch instruction input by the touch, before identifying the signal source corresponding to the touch instruction, the method further includes determining whether an input position of the touch instruction is an effective area, if not, the touch instruction input by the touch is invalid, and if so, identifying the signal source corresponding to the touch instruction.

Referring to fig. 2, fig. 2 is a schematic structural diagram of a touch interaction apparatus according to an embodiment of the present application, where the apparatus is applied to a touch display device, the touch display device is connected to an OPS terminal, the touch display device includes a first system, the OPS terminal includes a second system, and the apparatus includes:

the receiving unit is used for receiving a touch instruction of touch input.

And the signal source identification unit is used for identifying a signal source corresponding to the touch instruction.

And the system judgment unit is used for judging whether the signal source conforms to the second system, if so, the touch display equipment sends the touch instruction to the OPS terminal, the OPS terminal receives the touch instruction, the second system responds to the touch operation corresponding to the touch instruction, and if not, the first system directly responds to the touch operation corresponding to the touch instruction.

Optionally, the touch interaction device further includes the following units:

and the screen locking judging unit is used for judging whether the touch screen of the touch display equipment is in a screen locking state, if so, the touch screen displays screen starting information, the touch input touch instruction is invalid, and if not, the touch input touch instruction is received.

And the effective area judging unit is used for judging whether the input position of the touch instruction is an effective control area, if not, the touch instruction input by touch is invalid, and if so, a signal source corresponding to the touch instruction is identified.

Optionally, the touch interaction device in the embodiment of the application further includes a unit with other functions, for example, a superimposed key determining unit, which is used to determine whether the superimposed first virtual key and second virtual key exist in the input position of the touch instruction, and details are not repeated here.

The touch interaction device of the embodiment of the application is applied to a touch display device, the touch display device is connected with an OPS terminal, the touch display device comprises a first system, the OPS terminal comprises a second system, after receiving a touch instruction input by touch, a signal source of the touch instruction is identified, whether the signal source conforms to the second system is judged, if the signal source conforms to the second system, a virtual key corresponding to the signal source belongs to the second system, the touch instruction is sent to the OPS terminal corresponding to the second system, the OPS terminal receives the touch instruction, the second system responds to the touch operation corresponding to the touch instruction, if the signal source does not conform to the second system, the virtual key corresponding to the signal source belongs to the first system, the first system directly responds to the touch operation corresponding to the touch instruction, and by the above mode, each system processes the touch operation including the virtual keys within a range, the problem of touch transparent transmission is solved.

In some embodiments, a computer-readable storage medium is also provided, having stored thereon a plurality of instructions adapted to be loaded by a processor to perform any of the touch interaction methods described above.

Those skilled in the art will appreciate that all or part of the steps in the methods of the above embodiments may be implemented by associated hardware instructed by a program, which may be stored in a computer-readable storage medium, and the storage medium may include: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

In some embodiments, a computer device is further provided, the computer device includes a touch display device, the touch display device is connected to the OPS terminal, and the touch display device and the OPS terminal are configured to perform any one of the touch interaction methods described above.

The touch interaction method, the touch interaction device, the storage medium and the computer device provided by the embodiments of the present application are described in detail above, and a specific example is applied in the description to explain the principles and the embodiments of the present application, and the description of the embodiments above is only used to help understanding the method and the core idea of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. A touch interaction method is applied to a touch display device, the touch display device is connected with an OPS terminal, the touch display device comprises a first system, the OPS terminal comprises a second system, and the method comprises the following steps:

receiving a touch instruction of touch input;

identifying a signal source corresponding to the touch instruction;

judging whether the signal source conforms to the second system;

if so, the touch display equipment sends the touch instruction to the OPS terminal, the OPS terminal receives the touch instruction, and the second system responds to the touch operation corresponding to the touch instruction;

and if not, the first system directly responds to the touch operation corresponding to the touch instruction.

2. The touch interaction method of claim 1, wherein prior to the receiving a touch instruction for touch input, the method further comprises:

judging whether a touch screen of the touch display equipment is in a screen locking state;

if so, the touch screen displays screen starting information, and touch input touch instructions are invalid;

and if not, receiving the touch instruction of touch input.

3. The touch interaction method according to claim 1, wherein after the receiving of the touch instruction of the touch input, before the identifying of the signal source corresponding to the touch instruction, the method further comprises:

judging whether the input position of the touch instruction is an effective control area;

if not, the touch instruction input by touch is invalid;

and if so, identifying a signal source corresponding to the touch instruction.

4. The touch interaction method according to claim 1, wherein after the receiving of the touch instruction of the touch input, before the identifying of the signal source corresponding to the touch instruction, the method further comprises:

judging whether a virtual key exists in the input position of the touch instruction;

if not, the touch instruction input by touch is invalid;

and if so, identifying a signal source corresponding to the touch instruction.

5. The touch interaction method according to any one of claims 1 to 4, wherein the specific implementation process of identifying the signal source corresponding to the touch instruction is as follows:

judging whether a first virtual key exists in the input position of the touch instruction;

if not, the touch instruction input by touch is invalid;

if yes, judging whether a second virtual key exists in the input position;

if not, the signal source is generated by the first virtual key;

if yes, judging whether the first virtual key is positioned on the upper layer of the second virtual key;

if yes, the signal source is generated by the first virtual key;

and if not, the signal source is generated by the second virtual key.

6. The touch interaction method according to any one of claims 1 to 4, wherein the specific implementation process of identifying the signal source corresponding to the touch instruction is as follows:

judging whether a first virtual key exists in the input position of the touch instruction;

if not, the touch instruction input by touch is invalid;

if yes, judging whether a second virtual key exists in the input position;

if not, the signal source is generated by the first virtual key;

if yes, judging whether the priority of the first virtual key is higher than that of the second virtual key;

if yes, the signal source is generated by the first virtual key;

and if not, the signal source is generated by the second virtual key.

7. The touch interaction method according to any one of claims 1 to 4, wherein the specific implementation process of identifying the signal source corresponding to the touch instruction is as follows:

judging whether a first virtual key exists in the input position of the touch instruction;

if not, the touch instruction input by touch is invalid;

if yes, judging whether a second virtual key exists in the input position;

if not, the signal source is generated by the first virtual key;

if so, displaying selection information by a touch screen of the touch display equipment;

receiving an input selection instruction;

judging whether the selection instruction corresponds to a first virtual key or not;

if yes, the signal source is generated by the first virtual key;

and if not, the signal source is generated by the second virtual key.

8. A touch interaction device is applied to a touch display device, the touch display device is connected with an OPS terminal, the touch display device comprises a first system, the OPS terminal comprises a second system, and the device comprises:

the receiving unit is used for receiving a touch instruction input by touch;

the signal source identification unit is used for identifying a signal source corresponding to the touch instruction;

the system judgment unit is used for judging whether the signal source conforms to the second system, if so, the touch display equipment sends the touch instruction to the OPS terminal, the OPS terminal receives the touch instruction, the second system responds to the touch operation corresponding to the touch instruction, and if not, the first system directly responds to the touch operation corresponding to the touch instruction.

9. A storage medium having stored therein a plurality of instructions adapted to be loaded by a processor to perform the touch interaction method of any of claims 1-7.

10. A computer device comprising a touch display device, wherein the touch display device is connected to an OPS terminal, and the touch display device and the OPS terminal are configured to perform the touch interaction method according to any one of claims 1 to 7.

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