CN111273804A - Touch forwarding device, touch display equipment and control method - Google Patents
Touch forwarding device, touch display equipment and control method Download PDFInfo
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Abstract
The invention provides a touch forwarding device, a touch display device and a control method, wherein the touch forwarding device is applied to the touch display device with a touch screen, and the touch display device is configured to be connected with at least two signal sources and simultaneously displays images of the at least two signal sources; the touch forwarding device comprises a forwarding control module and a forwarding interface module connected with the forwarding control module, wherein: the forwarding control module is used for acquiring touch data from the touch screen, calculating touch logic coordinate values of original touch coordinate values of the touch data relative to each display area according to display area information of each signal source displayed on the touch display equipment, and sending the touch data containing the touch logic coordinate values to the forwarding interface module; the forwarding interface module is used for forwarding the touch data to the corresponding signal source according to the touch logic coordinate value of the touch data.
Description
Technical Field
The invention relates to the technical field of touch display, in particular to a touch forwarding device, touch display equipment and a control method.
Background
The interactive touch display equipment is larger and larger in size and higher in resolution, the display screen of the interactive touch display equipment can be larger and larger in size of a single screen, and a plurality of smaller display screens can be spliced into a larger display screen so as to provide better use and visual perception for a user.
The existing interactive touch display device can only display the picture of one signal source, and the user needs to display the pictures of two or even more signal sources at the same time when the number of the signal sources is more. However, the existing touch forwarding device cannot achieve the effect of displaying and controlling the pictures of multiple signal sources at the same time, and therefore, the conventional touch forwarding device needs to be redesigned to meet various requirements of users.
Disclosure of Invention
In view of this, the present invention provides a touch forwarding device, a touch display device and a control method thereof, so as to solve the problem that the touch forwarding device in the prior art cannot realize simultaneous display and touch control of multiple signal sources.
In order to achieve the above purpose, in a first aspect, the invention adopts the following technical solutions:
a touch forwarding device is applied to a touch display device with a touch screen, wherein the touch display device is configured to be connected with at least two signal sources and simultaneously display images of the at least two signal sources; the touch forwarding device comprises a forwarding control module and a forwarding interface module connected with the forwarding control module, wherein:
the forwarding control module is used for acquiring touch data from the touch screen, calculating touch logic coordinate values of original touch coordinate values of the touch data relative to each display area according to display area information of each signal source displayed on the touch display equipment, and sending the touch data containing the touch logic coordinate values to the forwarding interface module;
the forwarding interface module is used for forwarding the touch data to the corresponding signal source according to the touch logic coordinate value of the touch data, so that the corresponding signal source executes corresponding action based on the received touch data.
Preferably, the forwarding interface module includes a plurality of forwarding interface circuit units, each forwarding interface circuit unit is configured to connect to a signal source, and the forwarding control module sends the touch data to all forwarding interface circuit units in a broadcast manner.
Preferably, each forwarding interface circuit unit includes a judging submodule configured to judge whether touch data received by the forwarding interface circuit unit includes dedicated touch data of the forwarding interface circuit unit, and the forwarding interface circuit unit is configured to send the dedicated touch data to a corresponding signal source according to a judgment result, where the dedicated touch data is touch data of the signal source connected to the forwarding interface circuit unit.
Preferably, the touch data sent by the forwarding control module includes a display area identification code, and each forwarding interface circuit unit is configured to select and send its own dedicated touch data according to the display area identification code.
Preferably, the touch display device further comprises a display control module, wherein the display control module is connected with the forwarding control module and is used for providing the display area information of each signal source displayed on the touch display device to the forwarding control module.
Preferably, the display control module is further configured to adjust a position and/or a size of a display area of any signal source displayed on the touch display device.
In order to achieve the above purpose, the second aspect of the invention adopts the following technical scheme:
a touch display device comprises a touch screen and the touch forwarding device, wherein a forwarding control module of the touch forwarding device is connected with a touch circuit of the touch screen to acquire touch data from the touch screen.
In order to achieve the above object, in a third aspect, the present invention adopts the following technical solutions:
the utility model provides a touch display device for carry out image display and touch-control operation to the signal source that links to each other with it, including touch-sensitive screen and the display screen that corresponds the setting, touch display device still includes:
the touch circuit is connected with the touch screen and used for acquiring an original touch coordinate value of a touched position of the touch screen relative to the display screen;
the forwarding control module comprises a control submodule, the control submodule is connected with the touch circuit and is used for receiving the original touch coordinate value and acquiring display area information of a display area of each signal source relative to the display screen, and the control submodule is also used for calculating a touch logic coordinate value of the touched position relative to the display area of each signal source according to the display area information and the original touch coordinate value;
the forwarding interface circuit units are used for extracting exclusive touch data corresponding to a display area of the signal source connected with the forwarding interface circuit units according to the touch logic coordinate values and transmitting the exclusive touch data to the signal source connected with the forwarding interface circuit units, so that the signal source executes corresponding actions based on the received exclusive touch data.
Preferably, the forwarding control module further comprises a storage sub-module connected to the control sub-module;
a plurality of preset display areas are divided on the display screen, and the plurality of preset display areas and the plurality of forwarding interface circuit units are arranged in a one-to-one correspondence manner;
the storage submodule is used for storing the position information of each preset display area relative to the display screen;
the control submodule is used for reading the position information in the storage submodule to be used as display area information.
Preferably, the display control module is further included, and the display control module is respectively connected with the display screen and the control submodule;
the display control module is used for acquiring the position information of the display area of the signal source relative to the display screen and transmitting the position information as the display area information to the control submodule.
Preferably, the forwarding control module further includes a lighting judgment sub-module connected to the control sub-module, where the lighting judgment sub-module is configured to judge whether display areas of the plurality of signal sources have overlapping portions, and if so, determine the display area of the signal source currently in a lighting state as an operation interface;
when the touched position is located at the overlapped part, the control sub-module is used for determining the touch logic coordinate value of the touched position relative to the operation interface.
Preferably, the forwarding control module further includes an output judgment sub-module, and the output judgment sub-module is respectively connected to the control sub-module and the plurality of forwarding interface circuit units;
the output judgment submodule is used for extracting information meeting a preset condition in the touch logic coordinate values and outputting the information to the forwarding interface circuit unit, wherein the preset condition is that the touched position falls into a display area of the signal source.
Preferably, the touch logic coordinate value sent by the output judgment sub-module includes a display area identification code, and each forwarding interface circuit unit is configured to extract and send own dedicated touch data according to the display area identification code.
Preferably, each of the forwarding interface circuit units includes a judgment submodule connected to the output judgment submodule; the judgment submodule is used for judging whether the touch control logic coordinate value received by the forwarding interface circuit unit contains exclusive touch data of the forwarding interface circuit unit, the forwarding interface circuit unit is used for sending the exclusive touch data to a corresponding signal source according to a judgment result, and the exclusive touch data is the touch control logic coordinate value of the signal source connected with the forwarding interface circuit unit.
Preferably, the touch display device is a touch all-in-one machine, an electronic blackboard, an electronic whiteboard, a multimedia large screen, a touch panel television, an intelligent interactive panel or an interactive display screen.
In order to achieve the above object, in a fourth aspect, the present invention adopts the following technical solutions:
a control method of a touch display device is used for controlling the touch display device, the touch display device comprises a touch screen and a display screen which are correspondingly arranged, and the control method comprises the following steps:
s1, acquiring an original touch coordinate value of the touched position of the touch screen relative to the display screen;
s2, acquiring display area information of the display area of each signal source relative to the display screen;
s3, determining touch logic coordinate values of the touched position relative to the display area of each signal source according to the original touch coordinate values and the display area information;
and S4, extracting exclusive touch data corresponding to the display area of the signal source connected with the touch control logic coordinate value according to the touch control logic coordinate value, and transmitting the exclusive touch data to the signal source connected with the exclusive touch data.
Preferably, the display screen divides a plurality of preset display areas, the plurality of preset display areas and the plurality of forwarding interface circuit units are arranged in a one-to-one correspondence manner, and the control method further includes:
s01, storing the position information of each preset display area relative to the display screen;
the S2 specifically includes:
and reading the position information of the display area of each signal source relative to the display screen as display area information.
Preferably, the control method further includes:
s02, adjusting the position and/or size of a display area of any signal source displayed on the display screen through a display control module of the touch display device, and collecting the position information of the display area of the signal source relative to the display screen;
the S2 specifically includes:
and reading the position information of the display area of each signal source relative to the display screen as display area information.
Preferably, the S3 is specifically:
s30, judging whether the original touch coordinate values fall into the display area of each signal source, if so, executing S31, and if not, returning to execute S1;
and S31, judging whether the display area of the signal source has an overlapped part, if so, determining the touch logic coordinate value according to the original touch coordinate value and the display area information of the display area of the signal source currently in a lighting state, and if not, determining the touch logic coordinate value according to the original touch coordinate value and the display area information of the display area of the signal source in which the original touch coordinate value falls.
Preferably, the S4 is specifically:
s41, judging whether the touch logic coordinate values contain a display area identification code of a signal source connected with the touch logic coordinate values, if so, extracting information corresponding to the display area identification code in the touch logic coordinate values as exclusive touch data, and if not, ignoring the touch logic coordinate values;
s42: and transmitting the exclusive touch data to the signal source connected with the exclusive touch data.
The touch forwarding device, the touch display equipment and the control method can simultaneously display the display pictures of at least two signal sources on the display screen, and can perform touch control on the display pictures of the signal sources through the touch screen, so that the flexibility and diversity of products are enhanced, and the use and visual experience of users are improved.
Drawings
The above and other objects, features and advantages of the present invention will become more apparent from the following description of the embodiments of the present invention with reference to the accompanying drawings, in which:
fig. 1 shows a schematic connection structure of a touch forwarding device according to an embodiment of the present invention;
FIG. 2 is a schematic diagram of a connection structure of a touch display device according to an embodiment of the present invention;
FIG. 3 is a second schematic diagram of a connection structure of a touch display device according to an embodiment of the invention;
fig. 4 is a flowchart illustrating a method for controlling a touch display device according to an embodiment of the present invention.
In the figure, the position of the upper end of the main shaft,
1. a forwarding control module; 11. a control sub-module; 12. a storage submodule; 13. lighting a judgment submodule; 14. an output judgment submodule;
2. a forwarding interface module; 21. a forwarding interface circuit unit; 211. a judgment submodule;
3. a touch screen;
4. a display control module;
5. a display screen;
6. a touch circuit.
Detailed Description
The present invention is described below based on embodiments, and it will be understood by those of ordinary skill in the art that the drawings provided herein are for illustrative purposes and are not necessarily drawn to scale.
Unless the context clearly requires otherwise, throughout the description and the claims, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, what is meant is "including, but not limited to".
In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.
A touch forwarding device is applied to a touch display device with a touch screen, wherein the touch display device is configured to be connected with at least two signal sources and simultaneously display images of the at least two signal sources. Here, it should be noted that the at least two signal sources may include an external device connected to the touch display device, such as a notebook computer, a tablet computer, and the like; a PC built in the touch display device may also be included. In a specific embodiment, the touch display device is configured to connect three signal sources, wherein the three signal sources include a PC built in the touch display device and two external device signal sources. In another alternative embodiment, the touch display device is configured to connect two signal sources, both of which are external device signal sources.
As shown in fig. 1, the touch forwarding device includes a forwarding control module 1 and a forwarding interface module 2 connected to the forwarding control module 1, where the forwarding control module 1 is configured to obtain touch data from a touch screen 3. The forwarding control module 1 is connected with the touch screen 3 of the touch display device, and may be directly connected or indirectly connected. For example, an acquisition circuit is arranged between the forwarding control module 1 and the touch screen 3, and the acquisition circuit acquires touch data of the touch screen 3 and transmits the touch data to the forwarding control module; for another example, the forwarding control module 1 is directly connected to the touch screen 3, and the forwarding control module 1 directly obtains the touch data of the touch screen 3.
After the touch data of the touch screen 3 is obtained, the forwarding control module 1 is further configured to calculate, according to the touch data and the display area information of each signal source displayed on the touch display device, a touch logic coordinate value of an original touch coordinate value of the touch data relative to each display area, and send the touch data including the touch logic coordinate value to the forwarding interface module 2. The touch data includes original coordinates of the position where the user uses a finger or uses a stylus to click or continuously touch the display screen 3, the display area of the signal source is usually square, the display area information of the signal source refers to coordinate values of four vertex angles of the square relative to the display screen, and the touch logic coordinate values refer to coordinate values of the original coordinates relative to the display area information of the signal source. In a specific embodiment, the lower left corner of the display screen 3 is taken as the origin of coordinates, the entire display screen is divided into 8 × 8 areas, the original coordinates of the relative display screen clicked by the user on the touch screen are (2,3), the coordinate values of the relative display screen at the four corners of the display area of one signal source are (1,1), (5,1), (1,6) and (5,6), the lower left corner of the display area is taken as the origin of coordinates of the display area, and after calculation, the coordinate value of the touched position relative to the display area is (2,2), that is, the touch logic coordinate value is (2, 2). Here, it should be noted that the conversion method of the touch logic coordinate values is not limited to the above simple conversion process, and the conversion of the touch logic coordinate values may be performed by how many calculation methods such as an average value, a variance, an addition, a subtraction, a multiplication, and a division are used in various internal logic control methods.
The forwarding interface module 2 of the touch forwarding device is configured to forward the touch data to the corresponding signal source according to the touch logic coordinate value of the touch data, so that the corresponding signal source executes a corresponding action based on the received touch data. The forwarding interface module 2 includes a plurality of forwarding interface circuit units 21, each forwarding interface circuit unit 21 is used for connecting to a signal source, and the forwarding control module 1 sends the touch data to all forwarding interface circuit units 21 in a broadcast manner. Here, it should be noted that each forwarding interface circuit unit 21 is connected to a signal source, which is a signal source corresponding to the forwarding interface circuit unit 21. In a specific embodiment, an external device is connected to the touch display device through a forwarding interface circuit unit 21, and the forwarding interface circuit unit 21 only transmits the received touch data related to the external device. When the forwarding control module 1 sends the touch data to each forwarding interface circuit unit 21 in a broadcast manner, each forwarding interface circuit unit 21 only receives the touch data of the signal source connected to itself, and ignores the rest of the touch data.
Further, each forwarding interface circuit unit 21 includes a determining submodule 211, configured to determine whether touch data received by the forwarding interface circuit unit 21 includes dedicated touch data of the forwarding interface circuit unit 21, where the forwarding interface circuit unit 21 is configured to send the dedicated touch data to a corresponding signal source according to a determination result, where the dedicated touch data is touch data of a signal source connected to the forwarding interface circuit unit 21. The touch data sent by the forwarding control module 1 includes a display area identification code, and each forwarding interface circuit unit 21 is configured to select and send its own dedicated touch data according to the display area identification code. For example, when two external devices connected to a touch display device are connected to each other via two forwarding interface circuit units 21, the two external devices are connected to the touch display device via two forwarding interface circuit units 21, the two signal sources have corresponding first and second display areas on a display screen, the first display area and the first forwarding interface circuit unit 21 connected to the external device corresponding to the first display area both have a display area identification code 1, the second display area and the second forwarding interface circuit unit connected to the external device corresponding to the second display area both have a display area identification code 2, the touch data sent by the forwarding control module 1 in a broadcast form includes the display area identification code, and the first forwarding interface circuit unit receives information sent by the forwarding control module, only the touch data with the display area identification code 1 is received, i.e. the touch data with the display area identification code 1 is the dedicated touch data of the first forwarding interface circuit unit. When receiving the information sent by the forwarding control module 1, the second forwarding interface circuit unit only receives the touch data containing the display area identification code 2, that is, the touch data containing the display area identification code 2 is the exclusive touch data of the first forwarding interface circuit unit. By setting the judgment sub-module 211, it can be ensured that the touch data received by the forwarding interface circuit unit 21 is definitely the data related and useful to the signal source connected to itself, and the control accuracy is improved. The touch display equipment of different models is provided with different numbers of forwarding interface circuit units, and the touch data transmission in the broadcast mode is not limited by the number of forwarding interface circuit units, so that the touch forwarding device can be applied to touch display equipment of various models, and the flexibility and the universality of the touch forwarding device are enhanced. Of course, it can be understood that when the forwarding control module 1 sends the touch data, a point-to-point sending manner may also be adopted, in a specific embodiment, the touch information sent by the forwarding control module 1 to the forwarding interface circuit unit 21 includes the touch data having the display area identification code 1 and also includes the touch data having the display area identification code 2, so when the touch data is sent in a point-to-point manner, when the forwarding control module 1 sends the touch data to the first forwarding interface circuit unit, the touch data only includes the touch data having the display area identification code 1; when the forwarding control module 1 sends the touch data to the second forwarding interface circuit unit, the touch data only includes the touch data with the display area identification code 2.
Further, the touch forwarding device further includes a display control module 4, the display control module 4 is connected to the forwarding control module 1, the display control module 4 is configured to adjust a position and/or a size of a display area of any signal source displayed on the touch display device, and the display control module 4 is further configured to provide display area information of each signal source displayed on the touch display device to the forwarding control module 1. When the position or the size of the display area of the signal source changes, the display area information of the display area of the signal source, which is acquired by the forwarding control module 1, changes, and then the touched position changes relative to the touch data of the signal source. Of course, it can be understood that, on some types of touch display devices, the position and size of the display area of the signal source cannot be changed, and at this time, the position of the display area that does not change relative to the display screen may be stored in the forwarding control module 1 in advance, and when it is needed, the forwarding control module may read the position.
The application also provides a touch display device, which comprises a touch screen 3 and the touch forwarding device, wherein the forwarding control module 1 of the touch forwarding device is connected with the touch circuit 6 to acquire touch data from the touch screen 3.
Preferably, the touch display device is a touch all-in-one machine, an electronic blackboard, an electronic whiteboard, a multimedia large screen, a touch panel television, an intelligent interactive panel or an interactive display screen, so as to bring more diversified use feelings to users, improve the use and visual experience of the users, and meet the requirements of the users on displaying pictures of multiple signal sources by the touch display device.
The application also provides a touch display device, which is used for carrying out image display and touch operation on a signal source connected with the touch display device, and comprises a touch screen 3 and a display screen 5 which are correspondingly arranged, wherein the touch screen 3 and the display screen 5 are correspondingly arranged on the whole display area of the display screen 5 and are both provided with the touch screen 3; it is also understood that the touch panel 3 is provided at any position where the display panel 5 can display. Of course, it is understood that the touch screen 3 may occupy only a portion of the area of the display screen 5.
As shown in fig. 2, the touch display device in the present application includes:
the touch circuit 6 is connected with the touch screen 3 and used for acquiring an original touch coordinate value of the touched position of the touch screen 3 relative to the display screen 5;
the forwarding control module 1 comprises a control submodule 11, the control submodule 11 is connected with the touch circuit 6, the control submodule 11 is used for receiving an original touch coordinate value and obtaining display area information of a display area of each signal source relative to the display screen 5, and the control submodule 11 is also used for calculating a touch logic coordinate value of a touched position relative to the display area of each signal source according to the display area information and the original touch coordinate value;
the forwarding interface circuit units 21 are configured to be connected to a signal source, each forwarding interface circuit unit 21 is connected to the forwarding control module 1, and the forwarding interface circuit unit 21 is configured to extract dedicated touch data corresponding to a display area of the signal source connected to the forwarding interface circuit unit 21 according to the touch logic coordinate value and transmit the dedicated touch data to the signal source connected to the forwarding interface circuit unit, so that the corresponding signal source executes a corresponding action based on the received touch data.
After obtaining the original touch coordinate value and the display area information of the display area of the signal source, the forwarding control module 1 calculates the touch logical coordinate value of the touched position relative to the display area of each signal source, which is the same as the method introduced in the touch forwarding device and is not described herein again.
The method for obtaining the display area information of the display area of the signal source by the forwarding control module 1 includes the following two methods:
one is that the position and size of the display area of the signal source cannot be changed;
alternatively, the location and size of the display area of the signal source may be varied.
The above two methods for obtaining the display area information of the display area of the signal source are described in detail.
In a specific embodiment, as shown in fig. 2, the forwarding control module 1 further includes a storage sub-module 12 connected to the control sub-module 11, and a plurality of preset display areas are divided on the display screen, and the plurality of preset display areas and the plurality of forwarding interface circuit units 21 are arranged in a one-to-one correspondence manner. The storage submodule 12 is configured to store position information of each preset display area relative to the display screen. The control sub-module 11 is used for reading the position information in the storage sub-module 12 as the display area information. For example, the display screen is divided into a first preset display area and a second preset display area, the first preset display area and the second preset display area may respectively occupy 50% of the display screen, the first preset display area corresponds to the first forwarding interface circuit unit, and the first preset display area can only be used for displaying a picture of a signal source connected to the first forwarding interface circuit unit. The second preset display area corresponds to the second forwarding interface circuit unit, and the second preset display area can only be used for displaying the picture of the signal source connected with the second forwarding interface circuit unit. The control sub-module 11 stores position information, such as coordinate values, of each vertex angle of the first preset display area and the second preset display area relative to the position of the display screen 5. When the control submodule 11 needs to use the position information of the first preset area and the second preset area, the control submodule 11 may directly read the position information in the storage submodule 12 as the display area information.
In another specific embodiment, as shown in fig. 3, the touch display device further includes a display control module 4, and the display control module 4 is connected to the display screen 5 and the control sub-module 11 respectively. The display control module 4 is configured to obtain position information of a display area of the signal source relative to the display screen 5, and transmit the position information as display area information to the control sub-module 11. In this embodiment, the signal source and the display area are in one-to-one correspondence with the forwarding interface circuit unit 21, but the position and/or size of the display area may be adjusted, and when the position or size of the display area of the signal source changes, the display area information of the display area of the signal source acquired by the forwarding control module 1 changes, and then the touched position changes with respect to the touch data of the signal source. Therefore, the display control module 4 needs to constantly acquire the position and size of the display area displayed on the display screen 5, and once the position or size of the display area is changed, the changed display area information of the display area can be timely transmitted to the forwarding control module, so that the forwarding control module 1 can provide accurate touch data for the signal source.
Furthermore, as shown in fig. 3, the forwarding control module 1 further includes a lighting judgment sub-module 13 connected to the control sub-module 11, where the lighting judgment sub-module 13 is configured to judge whether the display areas of the plurality of signal sources have overlapping portions, and if there is an overlapping portion, determine the display area of the signal source currently in a lighting state as an operation interface, and when the touched position is located at the overlapping portion, the control sub-module 11 is configured to determine a touch logic coordinate value of the touched position relative to the operation interface. The display area on the display screen 5 has not only X and Y coordinates on the same plane with respect to the display screen but also a Z coordinate perpendicular to the XY plane. When the display areas of the plurality of signal sources have overlapping portions, it is necessary to determine Z coordinate values of the display areas of the plurality of signal sources, and the display area where the Z coordinate value of the display area is closer to the touch screen 3 is the display area of the signal source in the lit state, that is, the current operation interface. At this time, when the touch position falls on the overlapping portion of the display areas of the plurality of signal sources, the touch position is determined as a position relative to the operation interface, that is, the touch operation is applied to the operation interface, regardless of other display areas overlapping with the portion.
Further, the forwarding control module 1 further includes an output judgment submodule 14, and the output judgment submodule 14 is connected to the control submodule 11 and the plurality of forwarding interface circuit units 21, respectively. The output determining submodule 14 is configured to extract information meeting a predetermined condition from the touch logic coordinate values and output the information to the forwarding interface circuit unit 21, where the predetermined condition is that the touched position falls in the display area of the signal source. In the touch logic coordinate values calculated by the control sub-module 11, there may be a case that the original touch coordinate values do not fall into the display area of the signal source, in this case, the part of the touch logic coordinate values is meaningless for the signal source, and the control sub-module 11 may ignore the touch operation that does not fall into the display area of the signal source, or may display the part of the touch operation through the display screen. However, since the part of touch operation is meaningless for the signal source, the control sub-module 11 ignores the part of touch operation when transmitting the touch logic coordinate values outwards in a broadcast manner, and only transmits the touch logic coordinate values meeting the predetermined condition, that is, only transmits the touch logic coordinate values of which the touched position falls into the display area of the signal source, so as to ensure the control reliability and the accuracy of the transmission content, and avoid the occurrence of misoperation.
In order to further improve the control accuracy, the touch logic coordinate values sent by the output judgment sub-module 14 in the present application include a display area identification code, and each forwarding interface circuit unit 21 is configured to extract and send own dedicated touch data according to the display area identification code. Each forwarding interface circuit unit 21 includes a judgment sub-module 211 connected to the output judgment sub-module 14, where the judgment sub-module 211 is configured to judge whether the touch logic coordinate value received by the forwarding interface circuit unit 21 includes the dedicated touch data of the forwarding interface circuit unit 21, and the forwarding interface circuit unit 21 is configured to send the dedicated touch data to the corresponding signal source according to the judgment result, where the dedicated touch data is the touch logic coordinate value of the signal source connected to the forwarding interface circuit unit 21. Because the forwarding control module 1 outputs the touch logic coordinate values to the forwarding interface circuit unit 21 in a broadcast manner, the touch logic coordinate values related to a plurality of display areas may appear in one broadcast, in order to ensure that the signal source can accurately receive the dedicated touch data related thereto and avoid the situation of disordered transmission of the touch data, the determining sub-module 211 determines whether the touch logic coordinate values received by the forwarding interface circuit unit 21 contain the dedicated touch data of the forwarding interface circuit unit 21, and the forwarding interface circuit unit 21 is configured to send the dedicated touch data to the corresponding signal source according to the determination result.
As shown in fig. 4, the present application further provides a control method of a touch display device, which is used for controlling the touch display device, where the touch display device includes a touch screen and a display screen that are correspondingly arranged, and the control method includes the following steps:
s1, acquiring an original touch coordinate value of the touched position of the touch screen relative to the display screen;
the touch control circuit is connected with the touch screen, acquires an original touch control coordinate of a touched position of the touch screen relative to the display screen, and transmits the original touch control coordinate to the control submodule of the forwarding control module.
S2, acquiring display area information of the display area of each signal source relative to the display screen;
in a specific embodiment, the display screen divides a plurality of preset display areas, and the plurality of preset display areas and the plurality of forwarding interface circuit units are arranged in a one-to-one correspondence manner, and then the control method further includes:
s01, storing the position information of each preset display area relative to the display screen;
at this time, S2 specifically is:
and reading the position information of the display area of each signal source relative to the display screen as display area information.
In another preferred embodiment, the touch display device includes a display control module, the display control module is connected to the control submodule, and the control method further includes:
s02, adjusting the position and/or size of the display area of any signal source displayed on the display screen through the display control module of the touch display equipment, and collecting the position information of the display area of the signal source relative to the display screen;
s2 specifically includes:
and reading the position information of the display area of each signal source relative to the display screen as display area information.
S3, determining touch logic coordinate values of the touched position relative to the display area of each signal source according to the original touch coordinate values and the display area information;
further, S3 specifically includes:
s30, judging whether the original touch coordinate values fall into the display area of each signal source, if so, executing S31, and if not, returning to execute S1;
and S31, judging whether the display area of the signal source has an overlapped part, if so, determining touch logic coordinate values according to the original touch coordinate values and the display area information of the display area of the signal source currently in a lighting state, and if not, determining the touch logic coordinate values according to the original touch coordinate values and the display area information of the display area of the signal source falling into the original touch coordinate values.
The output judgment submodule judges whether the original touch coordinate values fall into the display area of each signal source. The lighting judgment sub-module judges whether the display areas of the plurality of signal sources have overlapping portions.
And S4, extracting exclusive touch data corresponding to the display area of the signal source connected with the touch control logic coordinate value according to the touch control logic coordinate value, and transmitting the exclusive touch data to the signal source connected with the touch control logic coordinate value.
In a specific embodiment, the touch display device includes a display area identification code, and each forwarding interface circuit unit is configured to extract dedicated touch data from the touch logic coordinate values sent by the determination submodule and send the dedicated touch data to the signal source. S4 is specifically:
s41, judging whether the touch logic coordinate values contain the display area identification codes of the signal sources connected with the touch logic coordinate values, if so, extracting information corresponding to the display area identification codes in the touch logic coordinate values as exclusive touch data, and if not, ignoring the touch logic coordinate values;
s42: and transmitting the exclusive touch data to a signal source connected with the exclusive touch data.
Here, it should be noted that, in the process of controlling the touch display device, the user may control the touch screen by using a hand or a stylus pen. The touch logic coordinate values received by the forwarding interface circuit unit may include other related information besides the display area identification codes, for example, numbers of used touch pens are different, the first touch pen is used for touch control in the first display area of the first signal source, and the identification codes of the three are the same. The diameter of the stylus is different, and the diameter of the stylus is different from the meaning of the transmitted touch information, for example, when the diameter of the stylus is small, the touch data (exclusive touch data) transmitted by the stylus only contains a click command; when the diameter of the stylus is large, the touch data transmitted by using the stylus includes a writing command. For another example, the touch data may further include touch pressure information, and when the touch pressure is large, a writing command is included, and when the touch pressure is small, a touch effect is achieved.
Those skilled in the art will readily appreciate that the above-described preferred embodiments may be freely combined, superimposed, without conflict.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (20)
1. A touch forwarding device is applied to a touch display device with a touch screen, wherein the touch display device is configured to be connected with at least two signal sources and simultaneously display images of the at least two signal sources; it is characterized in that the preparation method is characterized in that,
the touch forwarding device comprises a forwarding control module and a forwarding interface module connected with the forwarding control module, wherein:
the forwarding control module is used for acquiring touch data from the touch screen, calculating touch logic coordinate values of original touch coordinate values of the touch data relative to each display area according to display area information of each signal source displayed on the touch display equipment, and sending the touch data containing the touch logic coordinate values to the forwarding interface module;
the forwarding interface module is used for forwarding the touch data to the corresponding signal source according to the touch logic coordinate value of the touch data, so that the corresponding signal source executes corresponding action based on the received touch data.
2. The touch forwarding device of claim 1, wherein the forwarding interface module comprises a plurality of forwarding interface circuit units, each forwarding interface circuit unit is configured to be connected to a signal source, and the forwarding control module sends the touch data to all forwarding interface circuit units in a broadcast manner.
3. The touch forwarding device according to claim 2, wherein each forwarding interface circuit unit includes a determining submodule configured to determine whether the touch data received by the forwarding interface circuit unit includes dedicated touch data of the forwarding interface circuit unit, and the forwarding interface circuit unit is configured to send the dedicated touch data to a corresponding signal source according to a determination result, where the dedicated touch data is touch data of a signal source connected to the forwarding interface circuit unit.
4. The touch forwarding device of claim 3, wherein the touch data sent by the forwarding control module includes a display area identification code, and each forwarding interface circuit unit is configured to select and send its own dedicated touch data according to the display area identification code.
5. The touch forwarding device according to any one of claims 1 to 4, further comprising a display control module, connected to the forwarding control module, for providing the forwarding control module with display area information of each signal source displayed on the touch display device.
6. The touch forwarding device of claim 5, wherein the display control module is further configured to adjust a position and/or a size of a display area of any signal source displayed on the touch display device.
7. Touch display device, comprising a touch screen and a touch relay according to one of claims 1 to 6, wherein the relay control module of the touch relay is connected to the touch circuitry of the touch screen to obtain touch data from the touch screen.
8. The utility model provides a touch display device for carry out image display and touch-control operation to the signal source that links to each other with it, including touch-sensitive screen and the display screen that corresponds the setting, its characterized in that, touch display device still includes:
the touch circuit is connected with the touch screen and used for acquiring an original touch coordinate value of a touched position of the touch screen relative to the display screen;
the forwarding control module comprises a control submodule, the control submodule is connected with the touch circuit and is used for receiving the original touch coordinate value and acquiring display area information of a display area of each signal source relative to the display screen, and the control submodule is also used for calculating a touch logic coordinate value of the touched position relative to the display area of each signal source according to the display area information and the original touch coordinate value;
the forwarding interface circuit units are used for extracting exclusive touch data corresponding to a display area of the signal source connected with the forwarding interface circuit units according to the touch logic coordinate values and transmitting the exclusive touch data to the signal source connected with the forwarding interface circuit units, so that the signal source executes corresponding actions based on the received exclusive touch data.
9. The touch display device of claim 8, wherein the forwarding control module further comprises a storage sub-module coupled to the control sub-module;
a plurality of preset display areas are divided on the display screen, and the plurality of preset display areas and the plurality of forwarding interface circuit units are arranged in a one-to-one correspondence manner;
the storage submodule is used for storing the position information of each preset display area relative to the display screen;
the control submodule is used for reading the position information in the storage submodule to be used as display area information.
10. The touch display device of claim 8, further comprising a display control module, the display control module being connected to the display screen and the control sub-module, respectively;
the display control module is used for acquiring the position information of the display area of the signal source relative to the display screen and transmitting the position information as the display area information to the control submodule.
11. The touch display device according to one of claims 8 to 10, wherein the forwarding control module further comprises a lighting judgment sub-module connected to the control sub-module, the lighting judgment sub-module is configured to judge whether display areas of a plurality of signal sources have overlapping portions, and if so, determine the display area of the signal source currently in a lighting state as the operation interface;
when the touched position is located at the overlapped part, the control sub-module is used for determining the touch logic coordinate value of the touched position relative to the operation interface.
12. The touch display device according to one of claims 8 to 10, wherein the forwarding control module further comprises an output judgment sub-module, and the output judgment sub-module is respectively connected to the control sub-module and the plurality of forwarding interface circuit units;
the output judgment submodule is used for extracting information meeting a preset condition in the touch logic coordinate values and outputting the information to the forwarding interface circuit unit, wherein the preset condition is that the touched position falls into a display area of the signal source.
13. The touch display device according to claim 12, wherein the touch logic coordinate value sent by the output judgment sub-module includes a display area identification code, and each forwarding interface circuit unit is configured to extract and send own dedicated touch data according to the display area identification code.
14. The touch display device of claim 13, wherein each of the forwarding interface circuit units includes a judgment sub-module connected to the output judgment sub-module; the judgment submodule is used for judging whether the touch control logic coordinate value received by the forwarding interface circuit unit contains exclusive touch data of the forwarding interface circuit unit, the forwarding interface circuit unit is used for sending the exclusive touch data to a corresponding signal source according to a judgment result, and the exclusive touch data is the touch control logic coordinate value of the signal source connected with the forwarding interface circuit unit.
15. The touch display device of any one of claims 7-14, wherein the touch display device is a touch all-in-one machine, an electronic blackboard, an electronic whiteboard, a multimedia large screen, a touch panel television, a smart interactive panel, or an interactive display screen.
16. A control method of a touch display device is used for controlling the touch display device, the touch display device comprises a touch screen and a display screen which are correspondingly arranged, and the control method is characterized by comprising the following steps:
s1, acquiring an original touch coordinate value of the touched position of the touch screen relative to the display screen;
s2, acquiring display area information of the display area of each signal source relative to the display screen;
s3, determining touch logic coordinate values of the touched position relative to the display area of each signal source according to the original touch coordinate values and the display area information;
and S4, extracting exclusive touch data corresponding to the display area of the signal source connected with the touch control logic coordinate value according to the touch control logic coordinate value, and transmitting the exclusive touch data to the signal source connected with the exclusive touch data.
17. The control method of the touch display device according to claim 16, wherein the display screen divides a plurality of preset display areas, the plurality of preset display areas being arranged in one-to-one correspondence with the plurality of forwarding interface circuit units, the control method further comprising:
s01, storing the position information of each preset display area relative to the display screen;
the S2 specifically includes:
and reading the position information of the display area of each signal source relative to the display screen as display area information.
18. The method of controlling a touch display device according to claim 16, further comprising:
s02, adjusting the position and/or size of a display area of any signal source displayed on the display screen through a display control module of the touch display device, and collecting the position information of the display area of the signal source relative to the display screen;
the S2 specifically includes:
and reading the position information of the display area of each signal source relative to the display screen as display area information.
19. The method for controlling a touch display device according to any one of claims 16 to 18, wherein S3 is specifically:
s30, judging whether the original touch coordinate values fall into the display area of each signal source, if so, executing S31, and if not, returning to execute S1;
and S31, judging whether the display area of the signal source has an overlapped part, if so, determining the touch logic coordinate value according to the original touch coordinate value and the display area information of the display area of the signal source currently in a lighting state, and if not, determining the touch logic coordinate value according to the original touch coordinate value and the display area information of the display area of the signal source in which the original touch coordinate value falls.
20. The method for controlling the touch display device according to claim 19, wherein the S4 is specifically:
s41, judging whether the touch logic coordinate values contain a display area identification code of a signal source connected with the touch logic coordinate values, if so, extracting information corresponding to the display area identification code in the touch logic coordinate values as exclusive touch data, and if not, ignoring the touch logic coordinate values;
s42: and transmitting the exclusive touch data to the signal source connected with the exclusive touch data.
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CN111857633A (en) * | 2020-07-30 | 2020-10-30 | 京东方科技集团股份有限公司 | Display unit and spliced screen |
CN112306331A (en) * | 2020-10-26 | 2021-02-02 | 广州朗国电子科技有限公司 | Touch penetration processing method and device, storage medium and all-in-one machine |
CN114327140A (en) * | 2021-12-28 | 2022-04-12 | 威创集团股份有限公司 | Screen touch method, device, system, equipment and storage medium |
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CN109144304A (en) * | 2018-02-13 | 2019-01-04 | 北京仁光科技有限公司 | At least one display window distributing adjustment and touch-control automatic calibrating method and system |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111857633A (en) * | 2020-07-30 | 2020-10-30 | 京东方科技集团股份有限公司 | Display unit and spliced screen |
CN112306331A (en) * | 2020-10-26 | 2021-02-02 | 广州朗国电子科技有限公司 | Touch penetration processing method and device, storage medium and all-in-one machine |
CN112306331B (en) * | 2020-10-26 | 2021-10-22 | 广州朗国电子科技股份有限公司 | Touch penetration processing method and device, storage medium and all-in-one machine |
CN114327140A (en) * | 2021-12-28 | 2022-04-12 | 威创集团股份有限公司 | Screen touch method, device, system, equipment and storage medium |
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