WO2017156904A1

WO2017156904A1 - Multi-screen playback television, and multi-screen playback method for same

Info

Publication number: WO2017156904A1
Application number: PCT/CN2016/086461
Authority: WO
Inventors: 杨钢; 侯志龙
Original assignee: 深圳创维－Rgb电子有限公司
Priority date: 2016-03-18
Filing date: 2016-06-20
Publication date: 2017-09-21
Also published as: CN105812887A

Abstract

A multi-screen playback television, and multi-screen playback method for same. The television is pre-arranged to have several sub-screens and terminal ports, and each sub-screen is allocated with a pair of earphones. The television includes a processing module (10), a control module (20), a display module (30), and an audio module (40). The processing module (10) acquires video signals inputted from the several terminal ports, performs matching and decoding, image processing, and audio processing, and then generates respective sets of image sub-signals and audio sub-signals. The display module (30) performs mixing and superpositions on the image sub-signal in each set, and then transmits the same to corresponding sub-screens for display. The audio module (40) encodes the audio sub-signal in each set and sends the same to corresponding earphones by means of Bluetooth. The control module (20) controls, according to a remote control signal, a display effect of the display module (30) and system deployment. In this way, the present invention enables different users to simultaneously view and listen to videos in respective sub-screens on one television main screen, such that viewing demands of multiple users can be met without purchasing multiple televisions, thus saving money for the users.

Description

Multi-screen playing television and multi-screen playing method thereof

Technical field

The present invention relates to the field of television technologies, and in particular, to a television with multi-screen playback and a multi-screen playback method thereof.

Background technique

At present, the TV sets are getting bigger and bigger, and the resolution is getting higher and higher. When the screen grows from a small 32-inch to a mainstream 55-inch, even larger to 100 When multi-inch, the resolution has also grown from the original 1366 × 768 to 3840 × 2160, and even higher 8K.

However, existing television sets can only display video content of a single channel on one screen even if the screen is large. Different family members have different viewing requirements for TV programs, and TV sets cannot display programs with different video signals at the same time. As the main entertainment and leisure electronics and non-personal exclusive devices, the screen of the existing TV shows that the unique video content is difficult to meet the different viewing needs of multiple users.

Therefore, the prior art has yet to be improved and improved.

Summary of the invention

In view of the above deficiencies of the prior art, an object of the present invention is to provide a multi-screen playing television and a multi-screen playing method thereof, so as to solve the problem that the existing television can not display different video signal programs simultaneously.

In order to achieve the above object, the present invention adopts the following technical solutions:

A multi-screen playback television set, wherein a plurality of sub-screens and terminal interfaces are preset, each sub-screen is configured with a pair of earphones, the television set comprising: a processing module, a control module, a display module and a sound module;

The processing module collects video signals input by a plurality of terminal interfaces, performs matching decoding processing, image processing, and audio processing to generate a plurality of sets of image sub-signals and sound sub-signals respectively; the display module mixes and superimposes image sub-signals in each group After being transmitted to the corresponding sub-screen display, the sound module encodes the sound sub-signal in each group and sends the Bluetooth to the corresponding earphone to play; the control module controls the display effect and the system deployment of the display module according to the remote control signal.

In the multi-screen playing television, the processing module includes: a signal collecting unit, a signal decoding unit, an image processing unit, and an audio processing unit;

The signal acquisition unit collects video signals input by a plurality of terminal interfaces of the television, performs impedance matching on the plurality of video signals, generates corresponding sub-screen signals, and transmits the signals to the signal decoding unit;

The signal decoding unit performs multi-channel decoding on a plurality of sub-screen signals, generates corresponding groups of image sub-signals and sound sub-signals, and transmits the image sub-signals to the image processing unit, and transmits the sound sub-signals to the audio processing unit;

The image processing unit performs image processing and resolution scaling processing on the image sub-signals, calculates display positions of the respective sub-screens, and assigns corresponding image sub-signals to each sub-screen;

The audio processing unit performs volume adjustment of the sound sub-signal and adjustment of the sound power amplification output curve.

In the multi-screen playing television, when the user selects full-screen display, if there are 2 More than one video signal input, the image processing unit performs image processing on the video signal input by the first terminal interface and distributes to the full screen; if only 1 Video signal input, the image processing unit performs image processing on the video signal and distributes to full screen.

In the multi-screen playing television, the control module includes a remote control unit, a scheduling unit, and a UI unit;

The remote control unit identifies the sub-screen to which the remote control signal belongs, and parses the corresponding remote control command to send to the UI unit to perform a corresponding operation; the UI The unit displays a user menu of each sub-screen, and sends an operation instruction corresponding to the operation to the scheduling unit; the scheduling unit performs corresponding system deployment and execution according to the operation instruction, and feeds back the execution result to the UI unit; The unit control display module displays the corresponding execution operation.

In the multi-screen playing television, when the remote control unit further recognizes that the remote control command is a memory operation instruction, the memory operation instruction is sent to the scheduling unit for corresponding memory processing.

In the multi-screen playing television, a plurality of Bluetooth modules are disposed in the sound module, and each Bluetooth module encodes each received sound sub-signal and sends the Bluetooth to the corresponding earphone.

In the multi-screen playback television set, the sound module further includes a power amplifier module, and the television set further includes a speaker;

When the user selects full-screen display, if there is only one sound sub-signal, the power amplifier module performs power amplification on the sound sub-signal and transmits it to the horn to play;

If there are 2 More than one sound sub-signal, the power amplifier module processes the input video signal to the first terminal interface, obtains the sound sub-signal for power amplification, and transmits to the speaker for playing.

A multi-screen playing method for a television set using the multi-screen playing, comprising:

The processing module collects a plurality of video signals input by the terminal interface, and performs matching decoding processing, image processing, and audio processing to generate a plurality of sets of image sub-signals and sound sub-signals respectively;

The display module mixes and superimposes the image sub-signals in each group and transmits them to the corresponding sub-screen display; the sound module encodes the sound sub-signals in each group and sends the Bluetooth to the corresponding headphones for playing;

The control module controls the display effect and system configuration of the display module according to the remote control signal.

In the multi-screen playback method, the processing module collects video signals input by a plurality of terminal interfaces, and performs steps of performing matching decoding processing, image processing, and audio processing to generate a plurality of sets of image sub-signals and sound sub-signals, respectively. :

The signal decoding unit performs multi-channel decoding on the plurality of sub-screen signals, generates corresponding groups of image sub-signals and sound sub-signals, and transmits the image sub-signals to the image processing unit, and transmits the sound sub-signals to the audio processing unit;

The audio processing unit adjusts the volume adjustment of the sound sub-signal and the sound power amplification output curve.

In the multi-screen playback method, the step of the control module controlling the display effect of the display module and the system deployment according to the remote control signal specifically includes:

The remote control unit identifies the sub-screen to which the remote control signal belongs, and parses the corresponding remote control command to send to the UI unit to perform a corresponding operation;

The UI unit displays a user menu of each sub-screen, and sends an operation instruction corresponding to the operation to the scheduling unit;

The scheduling unit performs corresponding system provisioning and execution according to the operation instruction, and feeds back the execution result to the UI unit;

The UI unit controls the display module to display the corresponding execution operation.

Compared with the prior art, the present invention provides a multi-screen playing television and a multi-screen playing method thereof, the television Several sub-screens and terminal interfaces are preset, and each sub-screen is configured with a pair of headphones, a television set The processing module includes a processing module, a control module, a display module, and a sound module. The processing module collects video signals input by a plurality of terminal interfaces, and performs matching decoding processing, image processing, and audio processing to generate a plurality of sets of image sub-signals and sound sub-signals respectively. The display module mixes and superimposes the image sub-signals in each group and transmits them to the corresponding sub-screen display; the sound module encodes the sound sub-signals in each group and sends the Bluetooth to the corresponding headphones for playing; the control module controls according to the remote control signal Display module display and system configuration. In this way, on a TV main screen, different users can simultaneously watch the videos of the respective sub-screens. There is no need to purchase multiple TVs to meet the multi-user viewing needs, saving users the cost of purchase.

DRAWINGS

1 is a structural block diagram of a multi-screen playing television provided by the present invention;

2 is a schematic diagram of signal acquisition of a signal acquisition unit provided by the present invention;

3 is a schematic diagram of signal decoding of a signal decoding unit provided by the present invention;

4 is a schematic diagram of resolution and coordinates of four sub-screens provided by the present invention;

FIG. 5 is a schematic diagram of a sound module provided by the present invention; FIG.

6 is a schematic diagram of signal processing of an application embodiment of a multi-screen playback television provided by the present invention;

FIG. 7 is a flowchart of a multi-screen playing method provided by the present invention.

detailed description

The invention provides a multi-screen playing television and a multi-screen playing method thereof, and is suitable for the image display field, such as a television field, a computer display and the like. Dividing a TV screen into multiple sub-screens, each sub-screen displays the content that each user likes to watch, and can separately play the audio corresponding to the sub-screen, and the user can also select and operate the sub-screen that he watches to achieve a TV main screen. On the other hand, different users watch their respective sub-screens at the same time and do not affect each other. The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to FIG. 1 , a multi-screen television set provided by an embodiment of the present invention is provided. Several sub-screens and terminal interfaces are preset, and each sub-screen is configured with a pair of headphones. The television set includes a processing module 10, a control module 20, a display module 30, and a sound module 40. Processing module 10 Pairs the video signals input by several terminal interfaces, and perform matching decoding processing, image processing and audio processing to generate several sets of image sub-signals and sound sub-signals respectively. Display module 30 The image sub-signals in each group are mixed and superimposed and transmitted to the corresponding sub-screen display. The sound module 40 encodes the sound sub-signals in each group and sends the Bluetooth to the corresponding headphones for playback. The control module 20 Controlling the display effect and system configuration of the display module 30 according to the remote control signal . Each terminal interface corresponds to a sub-screen, and the video signal input by the terminal interface is displayed on the corresponding sub-screen, and the sound is played in the corresponding earphone. If there is no video signal input on a terminal, there is no display on the corresponding sub screen.

In this embodiment, the processing module 10 includes a signal acquisition unit 110, a signal decoding unit 120, and an image processing unit 130. And audio processing unit 140.

The signal acquisition unit 110 The video signals input by the plurality of terminal interfaces of the television are collected, and the plurality of video signals are impedance matched to be transmitted to the corresponding plurality of sub-screen signals that the system can normally receive, and then transmitted to the signal decoding unit 120. . The video signal includes a CVBS (Composite Video Broadcast Signal) signal, YUV (also known as YCrCb) Signal, HDMI (High - Definition Multimedia Interface) signal, RF (radio frequency) signal, VGA (Video Graphics Array) Signals, etc. Figure 2 As shown, the video signals based on these different formats are respectively input to a sub-screen display, and the video signal input by which terminal interface is displayed in each sub-screen is preset in advance at the factory. Such as the first terminal interface (such as the first terminal interface from the top to the bottom of the TV) The CVBS signal is processed by the signal acquisition unit 110 to become the first sub-screen signal; the second terminal interface input YUV signal becomes the second sub-screen signal; and so on until the n-th terminal interface inputs n The signal becomes the nth sub-screen signal. The number of terminal interfaces is the same as the number of sub-screens. Which signal is externally connected to the terminal interface is determined by the user, and is not limited herein. The terminal interface on the television is prior art.

The signal decoding unit 120 A high-performance TV chip with multi-channel decoding capability (each channel simultaneously decodes one signal) can multi-channel decode several input sub-screen signals to generate corresponding groups of images that the system can recognize. Signal and sound sub-signals, and transmitting the decoded image sub-signals and sound sub-signals to the image processing unit 130 and audio processing unit 140. The first sub-screen signal is processed by the signal decoding unit 120 to become the first image sub-signal and the first sub-signal; similarly, the second sub-screen signal, the nth The sub-screen signal also becomes the corresponding image sub-signal and sound sub-signal, as shown in Figure 3.

The image processing unit 130 It also has multi-channel processing capability to perform resolution enlargement or reduction processing on the corresponding image sub-signals to make it meet the resolution required for the sub-screen display. At the same time, it also calculates the display position of the sub-screen to make the image sub-signals Displayed on the correct screen.

It should be understood that as long as the terminal interface is connected to the device, the input video signal is collected in real time, but which video signals are specifically displayed by the image processing unit 130 Depending on the user's selection screen. If 4 sub-screens are set, there are 4 terminal interfaces to input 4 kinds of video signals, 4 The video signals are subjected to the above acquisition and decoding processes. If the user selects the split screen display, the four video signals are respectively transmitted to the corresponding sub screens for display. If the user chooses to display full screen, at 4 When the video signals are input, the image processing unit 130 processes the video signal input by the first terminal interface and displays it to the display module; when only one terminal interface inputs the video signal, the image processing unit 130 After processing the video signal input by the terminal interface, the output is displayed to the display module. If only 2 terminal interfaces are connected to the device, then 2 The sub-screen corresponding to the terminal interface displays the corresponding video signal, and the other sub-screens are not displayed. In the specific implementation, the user can also select which terminal interface video signal is displayed in full screen through the remote controller.

Image processing unit 130 The image sub-signals are in one-to-one correspondence with the corresponding sub-screens according to a preset order (eg, from left to right, from top to bottom), and each sub-screen is assigned a corresponding image sub-signal ( That is, each pixel point in the image sub-signal corresponds to a coordinate point in the corresponding display position to determine which coordinate point shows which pixel point). Assume that the number of subscreens currently displayed is 4 as shown in Figure 4. The first sub-screen, the second sub-screen, the third sub-screen, and the fourth sub-screen are respectively according to a preset order. The first sub-screen displays the video signal input by the first terminal interface (and so on). The overall screen resolution is 3840*2160, Image Processing Unit 130 Each sub-screen is equally divided, and the resolution of each sub-screen is: 1920*1080. Corresponding to the coordinate position on the screen as shown in Figure 4. Shown. Then the input 4 image sub-signals need to be amplified or reduced in resolution. If the resolution of the image sub-signal is less than 1920*1080, it needs to be enlarged to 1920*1080. Resolution image signal; otherwise, it is reduced to 1920*1080 resolution, so that the input image sub-signal meets the sub-screen resolution requirements. It should be understood that the sub-screen of the television is pre-divided into n That can display at most n at the same time Screen. However, in actual viewing, the user may use full screen, and full screen does not need to calculate coordinates (equivalent to calculating the coordinates of the four vertices of the screen, the coordinates are known, so no calculation is needed); if the resolution does not meet the full screen requirement, the corresponding scaling process is performed. If it is satisfied, it will not be processed.

In addition, the image processing unit 130 Image processing is also performed on image sub-signals, including image quality adjustment (including resolution, contrast, image color, etc.) and image processing such as motion compensation to achieve better image quality. Image processing unit 130 The image sub-signals of the processed sub-screens are transmitted to the display module 30.

The display module 30 According to the display position, the image sub-signals are mixed and superimposed, specifically, each image sub-signal is taken one frame, and each pixel point value of each image sub-signal is stored in a corresponding two-dimensional matrix, and the size of the matrix Corresponds to the resolution of each image. Then, the two-dimensional matrix corresponding to each image sub-signal is superimposed according to the position that the television needs to display, so that each two-dimensional matrix becomes a total matrix for full-screen display. The size of the total matrix is the resolution of the actual screen of the TV. Thus, the value of each element in the total matrix corresponds to each pixel value of the television, thereby achieving matching of the image signal and the television screen. Finally, the display module 30 Then convert the total matrix into a format signal that can be displayed on the TV screen (such as V-by-OneHS signal) And output to the corresponding area of the display for display. The image sub-signals are mixed and superimposed into a full-screen signal. Since the two-dimensional matrix is associated with the position to be displayed, only the corresponding coordinate point will display the corresponding pixel point value, so that the wrong picture can be avoided after mixing.

While the image sub-signals are being processed, the sound sub-signals are also processed accordingly. Signal decoding unit 120 Each of the sound sub-signals is output to the audio processing unit 140 for corresponding processing. The audio processing unit 140 It also has multi-channel processing capability. The processing mainly includes the treble of the sound part, the enhancement or attenuation of the bass, the processing of various sound modes such as surround sound and stereo, and the adjustment of the sound power amplification output curve. Audio processing unit 140 The processed sound sub-signal is transmitted to the sound module 40.

Since different videos are displayed on the same display, the sound corresponding to each sub-screen is also different, and the only speaker in the existing TV set cannot meet the audio requirements. In order to make each user can hear the sound of the sub-screen used by them, and the sound of each sub-screen does not interfere with each other. This embodiment uses a number of headphones paired with a television to listen. The earphone can be a Bluetooth earphone, and the left earphone and the right earphone in each pair of earphones can be connected together through a data line, which is convenient for the user to wear. You can also separate the left and right headphones and label them, such as 1L indicates the left earphone of the first sub-screen, and 3R indicates the right earphone of the third sub-screen; such a pair of headphones can be used by two users at the same time.

Correspondingly, the sound module 40 There are several Bluetooth modules set in the internal demand. The number of Bluetooth modules is the same as the number of sub-screens and the number of headphones. Each pair of headphones is paired with a Bluetooth module, as shown in Figure 5. Shown. Each Bluetooth module re-encodes the received corresponding sound sub-signal and sends it to the corresponding earphone by Bluetooth. The earphone decodes the received encoded sound sub-signal and sends a corresponding sound for the user to listen to. Thereby achieving independent listening of each sub-screen.

When the user selects full-screen display, there is only one sound sub-signal, which can be played by the first earphone; or when the user selects the television broadcast, the power amplifier module of the existing power amplifier in the television performs power amplification and transmits to the television. Speaker playback. If there is For more than 2 sound sub-signals, only the video signal input by the first terminal interface is processed to obtain a sound sub-signal, which can be played through the first earphone or speaker.

As shown in Figure 6, it is assumed that the first terminal interface to the fourth terminal interface respectively input CVBS signal, HDMI signal, RF signal, YUV signal. The acquisition and impedance matching are performed separately through each channel in the signal acquisition unit 110; and then decoded by each channel in the signal decoding unit 120. Generated CVBS image sub-signals, The HDMI image sub-signal, the RF image sub-signal, and the YUV image sub-signal are transmitted to corresponding channels in the image processing unit 130 for image processing, and then sent to the display module 30. The overlay is superimposed and finally output to the corresponding sub-screen of the display for display. CVBS sound sub-signal, HDMI sound sub-signal, RF sound sub-signal, YUV sound sub-signal transmitted to the audio processing unit After the sound processing is performed in each channel of 140, it is transmitted to the corresponding Bluetooth module of the sound module 40 for encoding, and is sent to the corresponding earphone by Bluetooth.

In this embodiment, the processing module 10 completes the corresponding processing and play display of the audio and video signals, and the control module 20 Complete the corresponding control operations. The control module 20 includes a remote control unit 210, a scheduling unit 220, and a UI unit 230.

The remote control unit 210 Used to implement multi-user manipulation of each sub-screen user interface. The existing television has only one remote controller to operate. In this embodiment, in order to implement multi-user operation, each sub-screen is configured with an infrared remote controller, and each remote controller has the same function command and remote control for each sub-screen. The key values of the buttons are different, so that a sub-screen can be separately controlled by a separate remote controller, and even if the same remote operation is performed, the sub-screens do not affect each other. Remote control unit 210 identifies which sub-screen the received remote infrared signal belongs to, and parses the corresponding remote command to send to the UI unit 230 to perform the corresponding operation.

When the remote control unit recognizes that the remote control instruction is a memory operation instruction (such as involving memory cleaning, or memory allocation, or memory consumption query display, etc.), it may also directly send to the scheduling unit 220. Perform the corresponding memory processing. In the case of a memory cleanup instruction, the scheduling unit 220 can perform memory cleaning to free up more memory and speed up the system operation.

Divided into several sub-screens based on the television, in order to make each screen operate independently, through the UI unit 210 To control and coordinate the human-computer interaction interface of each sub-screen. The UI unit 210 is configured to display a user menu of each sub-screen; it is also associated with the scheduling unit 220 Communication, sending an operation instruction of the user to the user menu to the scheduling unit 220, so that the scheduling unit 220 performs allocation and execution of the operation instruction; the scheduling unit 220 also feeds back the execution result to the UI unit. 210. The UI unit 210 controls the display module to display a corresponding execution operation.

The scheduling unit 220 Functioning as a system provisioning (central scheduling), which depends on the operation requirements of each sub-screen, the decoding unit (including the signal decoding unit in this embodiment and other existing decoding units in the television), the CPU, and the GPU ( Graphics Processing Unit , graphics processor, belonging to the image processing unit), memory and other hardware resources for allocation and scheduling; specifically including the allocation of various video signal hardware decoding resources, to the CPU The ability to handle demand is balanced, and the application, allocation, and management of memory required for each signal transmission channel.

The embodiment of the present invention further provides a multi-screen playing method for a multi-screen playing TV, as shown in FIG. 7 . As shown, it specifically includes:

S100 The processing module collects video signals input by a plurality of terminal interfaces, and performs matching decoding processing, image processing, and audio processing to generate a plurality of sets of image sub-signals and sound sub-signals respectively;

S200 The display module mixes and superimposes the image sub-signals in each group and transmits them to the corresponding sub-screen display; the sound module encodes the sound sub-signals in each group and sends the Bluetooth to the corresponding headphones for playing;

The S300 and the control module control the display effect and system configuration of the display module according to the remote control signal.

The step S200 specifically includes:

Step 201 The signal acquisition unit collects video signals input by several terminal interfaces of the television, performs impedance matching on the plurality of video signals, generates corresponding sub-screen signals, and transmits the signals to the signal decoding unit;

Step 202 The signal decoding unit performs multi-channel decoding on the plurality of sub-screen signals, generates corresponding groups of image sub-signals and sound sub-signals, and transmits the image sub-signals to the image processing unit, and transmits the sound sub-signals to the audio processing unit;

Step 203 And the image processing unit performs image processing and resolution scaling processing on the image sub-signals, calculates a display position of each sub-screen, and assigns a corresponding image sub-signal to each sub-screen;

Step 204 The audio processing unit adjusts the volume adjustment of the sound sub-signal and the sound power amplification output curve. For details, please refer to the above embodiment.

The step S300 specifically includes:

Step 301: The remote control unit identifies the sub-screen to which the remote control signal belongs, and parses the corresponding remote command to send to the UI. The unit performs the corresponding operation;

Step 302: The UI unit displays a user menu of each sub-screen, and sends an operation instruction corresponding to the operation to the scheduling unit.

Step 303: The scheduling unit performs corresponding system deployment and execution according to the operation instruction, and feeds back the execution result to the UI unit.

Step 304: The UI unit controls the display module to display a corresponding execution operation.

In summary, the present invention adopts multi-channel and multi-tasking technology, and displays on a TV screen in multiple screens, and the content displayed on each sub-screen is displayed according to the user's selection, and each sub-screen can be performed by using a remote controller matched thereto. Control; and each sub-screen is configured with different sound output, and the sound of each sub-screen can be transmitted to the corresponding earphone through its corresponding Bluetooth module. Users do not need to purchase multiple TVs to meet the needs of multi-user viewing. Multiple users can use one TV to watch their favorite content at the same time, satisfying the individual viewing needs of each user, saving users the purchase cost.

It is to be understood that those skilled in the art can make equivalent substitutions or changes to the inventions and the inventions of the present invention, and all such changes or substitutions fall within the scope of the appended claims.

Claims

A multi-screen television set, characterized in that a plurality of sub-screens and terminal interfaces are preset, and each sub-screen is configured with a pair of earphones, the television set The system includes: a processing module, a control module, a display module, and a sound module;

The processing module collects video signals input by a plurality of terminal interfaces, performs matching decoding processing, image processing, and audio processing to generate a plurality of sets of image sub-signals and sound sub-signals respectively; the display module mixes and superimposes image sub-signals in each group After being transmitted to the corresponding sub-screen display, the sound module encodes the sound sub-signal in each group and sends the Bluetooth to the corresponding earphone to play; the control module controls the display effect and the system deployment of the display module according to the remote control signal.
Multi-screen television set according to claim 1 The processing module includes: a signal acquisition unit, a signal decoding unit, an image processing unit, and an audio processing unit;

The signal acquisition unit collects video signals input by a plurality of terminal interfaces of the television, performs impedance matching on the plurality of video signals, generates corresponding sub-screen signals, and transmits the signals to the signal decoding unit;

The signal decoding unit performs multi-channel decoding on a plurality of sub-screen signals, generates corresponding groups of image sub-signals and sound sub-signals, and transmits the image sub-signals to the image processing unit, and transmits the sound sub-signals to the audio processing unit;

The image processing unit performs image processing and resolution scaling processing on the image sub-signals, calculates display positions of the respective sub-screens, and assigns corresponding image sub-signals to each sub-screen;

The audio processing unit performs volume adjustment of the sound sub-signal and adjustment of the sound power amplification output curve.
A multi-screen television set according to claim 2, wherein when the user selects full-screen display, if there are 2 More than one video signal input, the image processing unit performs image processing on the video signal input by the first terminal interface and distributes to the full screen; if only 1 The video signal is input, and the image processing unit performs image processing on the video signal and distributes to full screen.
The multi-screen television set according to claim 1, wherein the control module comprises a remote control unit, a scheduling unit, and a UI Unit

The remote control unit identifies the sub-screen to which the remote control signal belongs, and parses the corresponding remote control command to send to the UI unit to perform a corresponding operation; the UI The unit displays a user menu of each sub-screen, and sends an operation instruction corresponding to the operation to the scheduling unit; the scheduling unit performs corresponding system deployment and execution according to the operation instruction, and feeds back the execution result to the UI unit; The unit control display module displays the corresponding execution operation.
Multi-screen television set according to claim 4 The remote control unit further detects that the remote control command is a memory operation instruction, and sends the memory operation instruction to the scheduling unit for corresponding memory processing.
Multi-screen television set according to claim 1 The sound module is provided with a plurality of Bluetooth modules, and each Bluetooth module encodes each received sound sub-signal and sends the Bluetooth to the corresponding earphone.
Multi-screen television set according to claim 6 The sound module further includes a power amplifier module, and the television further includes a speaker;

When the user selects full-screen display, if there is only one sound sub-signal, the power amplifier module performs power amplification on the sound sub-signal and transmits it to the horn to play;

If there are 2 More than one sound sub-signal, the power amplifier module processes the input video signal to the first terminal interface, obtains the sound sub-signal for power amplification, and transmits to the speaker for playing.
A multi-screen playback method for a television set with multi-screen playback according to claim 1, characterized in that it comprises:

The processing module collects a plurality of video signals input by the terminal interface, and performs matching decoding processing, image processing, and audio processing to generate a plurality of sets of image sub-signals and sound sub-signals respectively;

The display module mixes and superimposes the image sub-signals in each group and transmits them to the corresponding sub-screen display; the sound module encodes the sound sub-signals in each group and sends the Bluetooth to the corresponding headphones for playing;

The control module controls the display effect and system configuration of the display module according to the remote control signal.
According to claim 8 The multi-screen playing method is characterized in that: the processing module collects video signals input by a plurality of terminal interfaces, and performs matching decoding processing, image processing, and audio processing to generate a plurality of sets of image sub-signals and sound sub-signals respectively. The steps specifically include:

The signal acquisition unit collects video signals input by a plurality of terminal interfaces of the television, performs impedance matching on the plurality of video signals, generates corresponding sub-screen signals, and transmits the signals to the signal decoding unit;

The signal decoding unit performs multi-channel decoding on the plurality of sub-screen signals, generates corresponding groups of image sub-signals and sound sub-signals, and transmits the image sub-signals to the image processing unit, and transmits the sound sub-signals to the audio processing unit;

The image processing unit performs image processing and resolution scaling processing on the image sub-signals, calculates display positions of the respective sub-screens, and assigns corresponding image sub-signals to each sub-screen;

The audio processing unit adjusts the volume adjustment of the sound sub-signal and the sound power amplification output curve.
The multi-screen playing method according to claim 9, wherein when the user selects full-screen display, if there are 2 More than one video signal input, the image processing unit performs image processing on the video signal input by the first terminal interface and distributes to the full screen; if only 1 The video signal is input, and the image processing unit performs image processing on the video signal and distributes it to full screen.
According to claim 8 The multi-screen playback method is characterized in that: the step of the control module controlling the display effect of the display module and the system deployment according to the remote control signal specifically includes:

The remote control unit identifies the sub-screen to which the remote control signal belongs, and parses the corresponding remote control command to send to the UI unit to perform a corresponding operation;

The UI unit displays a user menu of each sub-screen, and sends an operation instruction corresponding to the operation to the scheduling unit;

The scheduling unit performs corresponding system provisioning and execution according to the operation instruction, and feeds back the execution result to the UI unit;

The UI unit controls the display module to display the corresponding execution operation.
According to claim 11 The multi-screen playing method is characterized in that, when the remote control unit further recognizes that the remote control command is a memory operation command, the memory operation command is sent to the scheduling unit for corresponding memory processing.
According to claim 8 The multi-screen playing method is characterized in that each Bluetooth module encodes each received sound sub-signal and sends the Bluetooth to the corresponding earphone.
According to claim 13 The multi-screen playing method is characterized in that, when the user selects full-screen display, if there is only one sound sub-signal, the power amplifier module performs power amplification on the sound sub-signal and transmits to the speaker to play; if there are 2 More than one sound sub-signal, the power amplifier module processes the input video signal to the first terminal interface, obtains the sound sub-signal for power amplification, and transmits to the speaker for playing.