CN216649870U - Service equipment and system based on audio/video and network - Google Patents

Abstract

The application provides a service equipment based on audio frequency and video and network, relates to the communication technology, and the service equipment includes: the device comprises a device main body, wherein a main body element, an interactive network television element for providing video signals for a user terminal and a fifth generation mobile communication technology element for transmitting network signals to the interactive network television element through the main body element are arranged in the device main body; the main body element is respectively connected with the interactive network television element and the fifth generation mobile communication technology element; and the fifth generation mobile communication technology element is used for providing network signals of the second operator network to the interactive network television element when the first operator network of the main body element fails. In the application, the main body element, the interactive network television element and the fifth generation mobile communication technology element can be combined together, so that corresponding services are provided for users, and the technical problem that terminals providing business services are dispersed to cause complex use is solved.

Description

Service equipment and system based on audio/video and network

Technical Field

The present application relates to communications technologies, and in particular, to a service device and a system based on audio and video and a network.

Background

Currently, users need to use service services for communication, work, and the like, and therefore, service services can be provided to users through terminals.

In the prior art, different types of service services correspond to corresponding terminals, so that the corresponding service services can be provided to users through the terminals of the different types.

However, in the prior art, because the corresponding service is provided to the user through each type of terminal, when the types of service required by the user are many, the number of terminals is large and dispersed, and thus, the user is cumbersome to install and configure a plurality of terminals.

SUMMERY OF THE UTILITY MODEL

The application provides a service device based on audio and video and a network, which is used for solving the technical problem that terminals providing business services are dispersed to cause complex use.

In a first aspect, the present application provides a service device based on audio and video and a network, including: the device comprises a device main body, wherein a main body element, an interactive network television element for providing video signals for a user terminal and a fifth generation mobile communication technology element for transmitting network signals to the interactive network television element through the main body element are arranged in the device main body;

the main body element is respectively connected with the interactive network television element and the fifth generation mobile communication technology element;

the fifth generation mobile communication technology element is used for providing network signals of a second operator network to the interactive network television element when the first operator network of the main body element fails.

Furthermore, a first circuit board connecting port is arranged on the interactive network television element, and a second circuit board connecting port is arranged on the main body element;

the first circuit board connecting port of the interactive network television element is connected with the second circuit board connecting port of the main element through a line.

Furthermore, a first ethernet interface is arranged on the interactive network television element, and a second ethernet interface is arranged on the main body element;

the first Ethernet interface of the interactive network television element is connected with the second Ethernet interface of the main body element through a network cable.

Furthermore, a third circuit board connecting port is arranged on the main body element, and a fourth circuit board connecting port is arranged on the fifth-generation mobile communication technology element;

the third circuit board connection port of the main body element is connected with the fourth circuit board connection port of the fifth-generation mobile communication technology element through a line.

Further, a third ethernet interface is disposed on the main body element, and a fourth ethernet interface is disposed on the fifth-generation mobile communication technology element;

the third ethernet interface of the main element and the fourth ethernet interface of the fifth generation mobile communication technology element are connected by a network cable.

Further, the main body element comprises a first circuit board provided with a passive optical network sub-element, a voice sub-element and a software defined wide area network sub-element.

Furthermore, a first power interface for connecting with a first power supply is further arranged on the first circuit board.

Furthermore, the interactive network television element comprises a second circuit board, and a high-definition multimedia interface used for being connected with the user terminal is arranged on the second circuit board.

Furthermore, a second power interface for connecting with a second power supply is further arranged on the second circuit board.

In a second aspect, the present application provides a service system based on audio, video and network, where the system includes a user terminal and the service device based on audio, video and network of the first aspect.

The application provides a service equipment based on audio frequency and video and network, includes: the device comprises a device main body, wherein a main body element, an interactive network television element for providing video signals for a user terminal and a fifth generation mobile communication technology element for transmitting network signals to the interactive network television element through the main body element are arranged in the device main body; the main body element is respectively connected with the interactive network television element and the fifth generation mobile communication technology element; and the fifth generation mobile communication technology element is used for providing network signals of the second operator network to the interactive network television element when the first operator network of the main body element fails. In the scheme, a main body element, an interactive network television element and a fifth generation mobile communication technology element are arranged in the equipment main body, the interactive network television element is connected with the main body element, and the main body element is connected with the fifth generation mobile communication technology element, so that the main body element, the interactive network television element and the fifth generation mobile communication technology element can be combined together, and further corresponding services are provided for users, the convenience of the equipment main body combined by the users is greatly improved, and the technical problem that the terminals providing business services are dispersed to cause complex use is solved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic structural diagram of a service device based on audio/video and a network according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of another audio-video and network-based service device provided in an embodiment of the present application;

fig. 3 is a schematic structural diagram of another service device based on audio/video and a network according to an embodiment of the present application.

Description of reference numerals: 1-a body element; 2-an interactive web tv element; 3-fifth generation mobile communication technology element; 4-a first circuit board connector; 5-a second circuit board connector; 6-a first ethernet interface; 7-a second ethernet interface; 8-a third circuit board connector; 9-a fourth circuit board connector; 10-a third ethernet interface; 11-a fourth ethernet interface; 12-other Ethernet ports; 13-PON interface; 14-a device switch; 15-a first power interface; 16-high definition multimedia interface; 17-a second power interface; 18-third power interface.

With the foregoing drawings in mind, certain embodiments of the disclosure have been shown and described in more detail below. These drawings and written description are not intended to limit the scope of the disclosed concepts in any way, but rather to illustrate the concepts of the disclosure to those skilled in the art by reference to specific embodiments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure.

In one example, a user needs to communicate, work, etc. using a service, so the service can be provided to the user through a terminal. In the prior art, different types of service services correspond to corresponding terminals, so that the corresponding service services can be provided to users through the terminals of the different types. However, in the prior art, because the corresponding service is provided to the user through each type of terminal, when the types of service required by the user are many, the number of terminals is large and dispersed, and thus, the user is cumbersome to install and configure a plurality of terminals.

The application provides a service device based on audio and video and a network, and aims to solve the technical problems in the prior art.

The following describes the technical solutions of the present application and how to solve the above technical problems with specific embodiments. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of a service device based on audio/video and a network according to an embodiment of the present application, and as shown in fig. 1, the service device includes:

the device comprises a device body, wherein a body element 1, an interactive network television element 2 used for providing video signals for a user terminal and a fifth generation mobile communication technology element 3 used for transmitting network signals to the interactive network television element 2 through the body element 1 are arranged in the device body.

The main body element 1 is respectively connected with an interactive network television element 2 and a fifth generation mobile communication technology element 3.

And a fifth generation mobile communication technology element 3 for providing network signals of the second operator network to the interactive network television element 2 when the first operator network of the main body element 1 fails.

Exemplarily, fig. 1 is a front view of an audio/video and network based service device, as can be seen from fig. 1, a main body element 1, an interactive network television element (i.e., IPTV element) 2, and a fifth generation mobile communication technology element (i.e., 5G element) 3 are disposed in a device main body, the interactive network television element 2 is connected to the main body element 1, and the main body element 1 is connected to the fifth generation mobile communication technology element 3, so that the interactive network television element 2 can directly provide a video signal to a user terminal, and the fifth generation mobile communication technology element 3 can transmit a network signal to the interactive network television element 2 through the main body element 1, wherein the user terminal can be a terminal such as a television. And, the technical principle inside the fifth generation mobile communication technology element 3 is to provide the network signal of the second operator network to the interactive network television element 2 when the first operator network of the main body element 1 fails, so when the first operator network of the main body element 1 fails, the fifth generation mobile communication technology element 3 can automatically switch to itself and further transmit the network signal to the interactive network television element 2, wherein the technical principle inside the fifth generation mobile communication technology element 3 is the prior art.

For example, when the user needs the internet dedicated function, the internet dedicated function can be realized by the main body element 1, the interactive network television element 2 and the fifth generation mobile communication technology element 3. The technical principle inside the main body element 1 is to establish network connection between the main body element 1 and a first operator network, acquire resource data through the first operator network and then transmit the resource data to the interactive network television element 2; the resource data includes data such as video data. The interactive network television element 2 is based on the technical principle that the received video data is processed according to a preset video encoding and decoding technology to obtain a video signal of the video data, and then the video signal is transmitted to a user terminal connected with the interactive network television element 2, so that a function of internet private line is provided for a user. When the first operator network of the main body element 1 fails, the fifth generation mobile communication technology element 3 provides the interactive network television element 2 with network signals of the second operator network, wherein the technical principle inside the interactive network television element 2 and the fifth generation mobile communication technology element 3 is the prior art.

In an embodiment of the present application, the apparatus includes: the device comprises a device body, wherein a body element, an interactive network television element for providing video signals for a user terminal and a fifth generation mobile communication technology element for transmitting network signals to the interactive network television element through the body element are arranged in the device body. The main body element is respectively connected with the interactive network television element and the fifth generation mobile communication technology element. And the fifth generation mobile communication technology element is used for providing network signals of the second operator network to the interactive network television element when the first operator network of the main body element fails. In the scheme, a main body element, an interactive network television element and a fifth generation mobile communication technology element are arranged in the equipment main body, the interactive network television element is connected with the main body element, and the main body element is connected with the fifth generation mobile communication technology element, so that the main body element, the interactive network television element and the fifth generation mobile communication technology element can be combined together, and further corresponding services are provided for users, the convenience of the equipment main body combined by the users is greatly improved, and the technical problem that the terminals providing business services are dispersed to cause complex use is solved.

In an example, on the basis of the embodiment shown in fig. 1, fig. 2 is a schematic structural diagram of another service device based on audio, video and network provided in the embodiment of the present application, as shown in fig. 2, a first circuit board connection port 4 is provided on an interactive network television element 2, and a second circuit board connection port 5 is provided on a main body element 1; the first circuit board connection port 4 of the interactive network television element 2 is connected to the second circuit board connection port 5 of the main body element 1 by a wire.

Illustratively, the interactive network television element 2 is provided with a first circuit board connecting port 4, and the main body element 1 is provided with a second circuit board connecting port 5, so when the interactive network television element 2 is connected with the main body element 1, a circuit can be arranged between the first circuit board connecting port 4 and the second circuit board connecting port 5, and then the first circuit board connecting port 4 of the interactive network television element 2 is connected with the second circuit board connecting port 5 of the main body element 1 through a circuit.

For example, the main body element 1 is provided with a Passive Optical Network (PON) sub-element, a voice sub-element, and a software-defined wide area Network (SD-WAN) sub-element. The passive optical network sub-element is provided with a PON interface 13, the home-entry optical fiber is connected to the passive optical network sub-element through the PON interface 13, and the passive optical network sub-element can provide the interactive network television element 2 with the first operator network through the home-entry optical fiber and transmit video data to the interactive network television element 2, and then the interactive network television element 2 provides the capability of decoding the video data. If the home fiber and the user terminal are in the same position, the first circuit board connector 4 of the interactive network television element 2 is connected with the second circuit board connector 5 of the main body element 1 through a line, and at the moment, the interactive network television element 2 is powered by the main body element 1.

In the embodiment of the application, a first circuit board connecting port is arranged on the interactive network television element, and a second circuit board connecting port is arranged on the main body element; the first circuit board connecting port of the interactive network television element is connected with the second circuit board connecting port of the main body element through a line. Therefore, the interactive network television element and the main body element can be connected through the first circuit board connector and the second circuit board connector, and then the main body element, the interactive network television element and the fifth-generation mobile communication technical element can be combined together to provide corresponding services for users, so that the convenience of using the combined equipment main body by the users is greatly improved, and the technical problem that the terminals providing business services are dispersed to cause complex use is solved.

In one example, on the basis of the above-mentioned embodiment, as shown in fig. 1, the interactive network television element 2 is provided with a first ethernet interface 6.

Fig. 3 is a schematic structural diagram of another service device based on audio/video and network according to an embodiment of the present application, and as shown in fig. 3, fig. 3 is a rear view of the service device based on audio/video and network, and it can be known from fig. 3 that a second ethernet interface 7 is disposed on a main body element 1; the first ethernet interface 6 of the interactive network television element 2 is connected to the second ethernet interface 7 of the main body element 1 via a network cable.

Illustratively, the interactive network television element 2 is provided with a first ethernet interface 6, and the main body element 1 is provided with a second ethernet interface 7, so when the interactive network television element 2 is connected with the main body element 1, a network cable can be provided between the first ethernet interface 6 and the second ethernet interface 7, and further the first ethernet interface 6 of the interactive network television element 2 is connected with the second ethernet interface 7 of the main body element 1 through the network cable.

For example, the main body element 1 is provided with a Passive Optical Network (PON) sub-element, a voice sub-element, and a software-defined wide area Network (SD-WAN) sub-element. The passive optical network sub-element is provided with a PON interface 13, the home-entry optical fiber is connected to the passive optical network sub-element through the PON interface 13, and the passive optical network sub-element can provide the interactive network television element 2 with the first operator network through the home-entry optical fiber and transmit video data to the interactive network television element 2, and then the interactive network television element 2 provides the capability of decoding the video data. If the home fiber and the user terminal are in different positions, the first Ethernet interface 6 of the interactive network television element 2 is connected with the second Ethernet interface 7 of the main body element 1 through a network cable, and at the moment, the interactive network television element 2 directly supplies power to the interactive network television element 2.

In the embodiment of the application, the interactive network television element is provided with a first Ethernet interface, and the main body element is provided with a second Ethernet interface; the first Ethernet interface of the interactive network television element is connected with the second Ethernet interface of the main body element through a network cable. Therefore, the interactive network television element and the main body element can be connected through the first Ethernet interface, the second Ethernet interface and the network cable, and then the main body element, the interactive network television element and the fifth-generation mobile communication technical element can be combined together to provide corresponding services for users, so that the convenience of using the combined equipment main body by the users is greatly improved, and the technical problem that the terminals providing business services are dispersed to cause complex use is solved.

In one example, on the basis of the above embodiment, as shown in fig. 2, the main body element 1 is provided with a third circuit board connection port 8, and the fifth-generation mobile communication technology element 3 is provided with a fourth circuit board connection port 9; the third circuit board connection port 8 of the main unit 1 and the fourth circuit board connection port 9 of the fifth generation mobile communication technology unit 3 are connected by a wire.

Illustratively, the third circuit board connection port 8 is provided on the main body element 1, and the fourth circuit board connection port 9 is provided on the fifth generation mobile communication technology element 3, so when the main body element 1 is connected to the fifth generation mobile communication technology element 3, a line can be provided between the third circuit board connection port 8 and the fourth circuit board connection port 9, and further, the third circuit board connection port 8 of the main body element 1 and the fourth circuit board connection port 9 of the fifth generation mobile communication technology element 3 are connected by a line.

For example, if the main body element 1 (corresponding to the home optical fiber connected to the main body element 1) has a 5G room, 5G signals are good, the third circuit board connection port 8 of the main body element 1 is connected to the fourth circuit board connection port 9 of the fifth-generation mobile communication technology element 3 through a line, the 5G network in the fifth-generation mobile communication technology element 3 is used as a communication backup for the home optical fiber of the main body element 1, and when the home optical fiber line fails and the PON network of the main body element 1 is interrupted, the fifth-generation mobile communication technology element 3 is automatically switched to the communication backup of the fifth-generation mobile communication technology element 3, wherein the fifth-generation mobile communication technology element 3 is provided with a 5G antenna and a radio frequency signal processing unit, and the fifth-generation mobile communication technology element 3 is powered by the main body element 1.

In the embodiment of the application, a third circuit board connector is arranged on the main body element, and a fourth circuit board connector is arranged on the fifth-generation mobile communication technology element; the third circuit board connecting port of the main body element is connected with the fourth circuit board connecting port of the fifth generation mobile communication technology element through a line. Therefore, the main body element and the fifth generation mobile communication technology element can be connected through the third circuit board connector and the fourth circuit board connector, and then the main body element, the interactive network television element and the fifth generation mobile communication technology element can be combined together to provide corresponding services for users, so that the convenience of using the combined equipment main body by the users is greatly improved, and the technical problem that the terminals for providing business services are dispersed to cause complex use is solved.

In an example, on the basis of the above embodiment, as shown in fig. 3, the main body element 1 is provided with a third ethernet interface 10, and as shown in fig. 1, the fifth generation mobile communication technology element 3 is provided with a fourth ethernet interface 11; the third ethernet interface 10 of the main element 1 is connected to the fourth ethernet interface 11 of the fifth generation mobile communication technology element 3 via a network cable.

Illustratively, the main body element 1 is provided with a third ethernet interface 10, and the fifth generation mobile communication technology element 3 is provided with a fourth ethernet interface 11, so when the main body element 1 is connected with the fifth generation mobile communication technology element 3, a network cable can be provided between the third ethernet interface 10 and the fourth ethernet interface 11, and then the third ethernet interface 10 of the main body element 1 is connected with the fourth ethernet interface 11 of the fifth generation mobile communication technology element 3 through the network cable.

For example, if the 5G signal at the main body element 1 (corresponding to the home optical fiber connected to the main body element 1) is not good, the fifth generation mobile communication technology element 3 needs to be placed outdoors or other places where the 5G signal is good, and the third ethernet interface 10 of the main body element 1 is connected to the fourth ethernet interface 11 of the fifth generation mobile communication technology element 3 through the network cable. The fifth generation mobile communication technology element 3 is provided with a 5G antenna and a radio frequency signal processing unit, and the fifth generation mobile communication technology element 3 can directly supply power to the radio frequency signal processing unit in the fifth generation mobile communication technology element 2.

In the embodiment of the application, a third ethernet interface is arranged on the main body element, and a fourth ethernet interface is arranged on the fifth-generation mobile communication technology element; the third ethernet interface of the main element is connected to the fourth ethernet interface of the fifth generation mobile communication technology element via a network cable. Therefore, the main body element and the fifth generation mobile communication technology element can be connected through the third ethernet interface, the fourth ethernet interface and the network cable.

In one example, on the basis of the above-described embodiment, the main body element 1 includes a first circuit board provided with a passive optical network sub-element, a voice sub-element, and a software-defined wide area network sub-element.

Illustratively, the body element includes a first circuit board on which a Passive Optical Network (PON) sub-element, a voice sub-element, and a software-defined wide area Network (SD-WAN) sub-element are disposed. As shown in fig. 1, the main body element includes a plurality of other ethernet ports 12 and a PON interface 13, as shown in fig. 3, the main body element includes a device switch 14, wherein the other ethernet ports 12 include ethernet ports other than the second ethernet port and the third ethernet port, the device switch 14 can turn on or off the main body element 1, the PON interface 13 is disposed on the passive optical network sub-element, the home-entry optical fiber is connected to the passive optical network sub-element through the PON interface 13, the voice sub-element can adopt VoIP technology, voice service is provided to the user through the other ethernet ports 12, the user can plug an IP telephone into the other ethernet ports 12 through a network cable, the software-defined wide area network sub-element refers to a device supporting IPsec and VxLAN protocols, and can perform a three-layer tunneling protocol with other branch office or cloud devices under the control of an SDWAN controller in the large network, so as to realize the functions of fast and safe networking and cloud entry.

In the embodiment of the application, the main body element includes first circuit board, first circuit board is provided with passive optical network subelement, pronunciation subelement and software definition wide area network subelement, constitute passive optical network subelement, pronunciation subelement and software definition wide area network subelement into the main body element, can synthesize provide corresponding business service for the user, very big improvement the convenience that the user used the equipment main part of combination, the terminal that has solved to provide business service disperses and leads to using loaded down with trivial details technical problem.

In an example, on the basis of the above embodiment, as shown in fig. 3, the first circuit board is further provided with a first power interface 15 for connecting with a first power.

Illustratively, the first circuit board is further provided with a first power interface 15, and the first power interface 15 is connected with a first power supply, which is equivalent to the main body element 1 connected with the first power supply. For example, when the home fiber and the user terminal are located at the same position, the main body element 1 is connected to a first power source through the first power interface 15, so as to supply power to the interactive network television element 2 connected to the main body element 1. When the positions of the home-entry optical fiber and the user terminal are different, the main body element 1 is connected with a first power supply through the first power supply interface 1 and directly supplies power to the main body element. When the signal 5G at the main body element 1 is good, the third circuit board connection port 8 of the main body element 1 is connected to the fourth circuit board connection port 9 of the fifth generation mobile communication technology element 3 through a line, and the main body element 1 is connected to the first power supply through the first power supply interface 15, so as to supply power to the fifth generation mobile communication technology element 3.

In this embodiment, the first circuit board is further provided with a first power interface for connecting with a first power supply. Therefore, the main body element can be connected with a first power supply through the first power interface so as to supply power to the main body element.

In one example, on the basis of the above-mentioned embodiment, as shown in fig. 3, the interactive network television element 2 includes a second circuit board on which a high-definition multimedia interface 16 for connecting with a user terminal is disposed.

Illustratively, the interactive network television element 2 includes a second circuit board, a High Definition Multimedia Interface (HDMI) 16 is disposed on the second circuit board, the HDMI 16 is connected with a user terminal, and the interactive network television element 2 outputs a video signal to the user terminal.

In the embodiment of the application, the interactive network television element comprises a second circuit board, and a high-definition multimedia interface used for being connected with a user terminal is arranged on the second circuit board. Therefore, the interactive network television element is connected with the user terminal through the high-definition multimedia interface.

In an example, on the basis of the above embodiment, as shown in fig. 3, a second power interface 17 for connecting with a second power source is further provided on the second circuit board.

A second power interface 17 (e.g., Type-c interface, etc.) is further disposed on the second circuit board, and the second power interface 17 is connected to a second power source, which is equivalent to the interactive network television element 2 being connected to the second power source. For example, when the location of the home fiber is different from the location of the user terminal, the interactive network television element 2 is connected to the second power source through the second power source interface 17 of the interactive network television element, so as to supply power to the interactive network television element.

In this embodiment, the second circuit board is further provided with a second power interface for connecting with a second power supply. Therefore, the interactive network television element can be connected with a second power supply through the second power interface so as to supply power to the interactive network television element.

In one example, on the basis of the above-described embodiment, as shown in fig. 3, the fifth generation mobile communication technology element 3 includes a third circuit board on which a third power interface 18 for connecting with a third power source is disposed.

Illustratively, the fifth generation mobile communication technology element 3 includes a third circuit board, and a third power interface 18 (e.g., Type-c interface, etc.) is further disposed on the third circuit board, and the third power interface 18 is connected to a third power source, which is equivalent to the fifth generation mobile communication technology element 3 being connected to the third power source. For example, if the main element 1 has a 5G compartment and the 5G signal is good, the third circuit board connector 8 of the main element 1 is connected to the fourth circuit board connector 9 of the fifth generation mobile communication technology element 3 by a wire, and the fifth generation mobile communication technology element 3 is powered by the first power interface 15 of the main element 1. If the 5G signal at the main body element 1 is not good, the fifth generation mobile communication technology element 3 needs to be placed outdoors or in other places where the 5G signal is good, the third ethernet interface 10 of the main body element 1 is connected with the fourth ethernet interface 11 of the fifth generation mobile communication technology element 3 through a network cable, at this time, the fifth generation mobile communication technology element 3 is connected with a third power supply through the third power supply interface 18 of the fifth generation mobile communication technology element 3, and then supplies power to the radio frequency signal processing unit arranged in the fifth generation mobile communication technology element 3 itself.

The embodiment of the application also provides a service system based on the audio, the video and the network, and the service system based on the audio, the video and the network comprises a user terminal and the service equipment based on the audio, the video and the network in the embodiment. The apparatus of this embodiment may execute the technical solution in the apparatus, and the specific implementation process and the technical principle are the same, which are not described herein again.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A service device based on audio-video and network, comprising: the device comprises a device main body, wherein a main body element, an interactive network television element for providing video signals for a user terminal and a fifth generation mobile communication technology element for transmitting network signals to the interactive network television element through the main body element are arranged in the device main body;

the main body element is respectively connected with the interactive network television element and the fifth generation mobile communication technology element;

the fifth generation mobile communication technology element is used for providing network signals of a second operator network to the interactive network television element when the first operator network of the main body element fails.

2. The apparatus according to claim 1, wherein the interactive network television element is provided with a first circuit board connection port, and the main body element is provided with a second circuit board connection port;

the first circuit board connecting port of the interactive network television element is connected with the second circuit board connecting port of the main element through a line.

3. The device according to claim 1, wherein a first ethernet interface is disposed on the interactive web tv element, and a second ethernet interface is disposed on the main body element;

the first Ethernet interface of the interactive network television element is connected with the second Ethernet interface of the main body element through a network cable.

4. The apparatus according to claim 1, wherein the main body element is provided with a third circuit board connection port, and the fifth generation mobile communication technology element is provided with a fourth circuit board connection port;

the third circuit board connection port of the main body element is connected with the fourth circuit board connection port of the fifth-generation mobile communication technology element through a line.

5. The device of claim 1, wherein a third ethernet interface is provided on the body element, and a fourth ethernet interface is provided on the fifth generation mobile communication technology element;

the third ethernet interface of the main element and the fourth ethernet interface of the fifth generation mobile communication technology element are connected by a network cable.

6. The apparatus of any of claims 1-5, wherein the body element comprises a first circuit board provided with a passive optical network sub-element, a voice sub-element, and a software defined wide area network sub-element.

7. The apparatus of claim 6, wherein the first circuit board further comprises a first power interface for connecting to a first power source.

8. The device according to any of claims 1-5, wherein the interactive network television element comprises a second circuit board on which a high definition multimedia interface is disposed for connection with the user terminal.

9. The apparatus of claim 8, wherein the second circuit board further comprises a second power interface for connecting to a second power source.

10. An audio-video and network based service system, characterized in that the system comprises a user terminal and an audio-video and network based service device according to any one of claims 1-9.

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