Television integrated machine structure integrating a routing AP module

By integrating a routing access module inside the TV, the problem of complex and costly TV internet connections is solved, achieving the effects of simplified connection and reduced costs.

CN224356177UActive Publication Date: 2026-06-12TPV DISPLAY TECH (XIAMEN) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TPV DISPLAY TECH (XIAMEN) CO LTD
Filing Date
2025-08-12
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

Currently, connecting a TV to the internet requires an external router, which complicates wiring and increases costs.

Method used

The integrated router AP module is located inside the TV and connects to the router board and TV motherboard through a standardized interface. It supports WiFi 5 or WiFi 6 protocols and provides wired and wireless network output.

Benefits of technology

It simplifies the process of connecting users to the Internet, reduces the cost of purchasing additional router equipment, and has strong scalability and versatility.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to a television body and a television motherboard, including the television body, the television motherboard, and a router board. The television motherboard and the router board are connected via a standardized interface. The router board integrates a wireless access point (AP) function and has an external RJ45 input port and an extended RJ45 output port. The external RJ45 input port is used to connect to an optical modem, and the extended RJ45 output port is used to connect to an external wired network terminal device. After the external network signal is processed by the router board, it is transmitted to the network signal processing chip on the television motherboard through the standardized interface, enabling the television to connect to the internet. Integrating the router module inside the television simplifies the steps for users to connect to the internet and reduces the cost of purchasing additional router equipment. The standardized interface between the router module and the television motherboard allows this technology to be quickly extended to other television products, providing wired and wireless network signal outputs, exhibiting strong scalability and versatility.
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Description

Technical Field

[0001] This utility model relates to the field of television technology, specifically to the structure of an all-in-one television set with an integrated routing AP module. Background Technology

[0002] Currently, there are two ways for televisions to connect to the internet: one is through a wired connection to an external router via an RJ45 port; the other is through a wireless connection to a router via a WiFi module. Connecting a user's television to the internet requires an external router to provide either a wired or wireless network, which is complex and increases costs. Summary of the Invention

[0003] The purpose of this invention is to overcome the shortcomings of the existing technology and provide a TV all-in-one structure with an integrated routing AP module.

[0004] To achieve the above objectives, the present invention adopts the following technical solution:

[0005] The integrated TV structure includes a TV body and a TV motherboard, characterized in that: it also includes a router board disposed inside the TV body cavity; the TV motherboard and the router board are connected via a standardized interface;

[0006] The router board integrates a wireless AP function. The router board has an external RJ45 input port and an extended RJ45 output port. The external RJ45 input port is used to connect to the optical modem, and the extended RJ45 output port is used to connect to the external wired network terminal device. After the external network signal is processed by the router board, it is transmitted to the network signal processing chip of the TV motherboard through a standardized interface to enable the TV to connect to the Internet.

[0007] The standardized interface includes a power supply interface and a signal interface;

[0008] The power supply interface includes a 4-pin connector, which is used to transmit the power received by the TV motherboard to the router board for power supply.

[0009] The signal interface includes a 32-pin connector, whose pins are divided into three groups according to function:

[0010] Network output signal group: transmits network signals from the extended RJ45 output port of the router board;

[0011] Network input signal group: transmits network input signals from the external RJ45 input port of the router board;

[0012] Communication signal group: Transmits communication signals between the router board and the TV motherboard.

[0013] Furthermore, in both TV power-on and commercial standby modes, the TV motherboard continues to supply power to the router board via its power supply interface.

[0014] Furthermore, the router board is flexibly bonded and fixed to the cavity of the TV body using 3M™ 300LSE double-sided foam adhesive.

[0015] Furthermore, the router board supports WiFi 5 or WiFi 6 protocols.

[0016] Furthermore, both the external RJ45 input port and the extended RJ45 output port are located on the back of the television body.

[0017] Furthermore, in the 4-pin connector of the power supply interface, the 1st pin is the +5V power output terminal, the 2nd pin is the +5V power output terminal, the 3rd pin is the ground terminal, and the 4th pin is the ground terminal.

[0018] Furthermore, in the 32-pin connector of the signal interface:

[0019] Pins 1 through 8 are used to transmit network signals from one of the extended RJ45 output ports;

[0020] Pins 9 through 16 are used to transmit network signals from another extended RJ45 output port;

[0021] Pins 17 through 24 are used to transmit network input signals from the external RJ45 input port;

[0022] Pins 25 to 32 transmit communication signals between the router board and the TV motherboard.

[0023] By adopting the above technical solution, the beneficial effects of this utility model are as follows:

[0024] 1. Integrating the router module into the TV simplifies the process of connecting users to the Internet and reduces the cost of purchasing additional router equipment.

[0025] 2. The router module connects to the TV motherboard via a standardized interface, allowing the technology to be quickly extended to other TV products, providing wired and wireless network signal outputs, and exhibiting strong scalability and versatility. Attached Figure Description

[0026] The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments:

[0027] Figure 1 This is a schematic diagram of the framework of this utility model;

[0028] Figure 2 A schematic diagram of the standardized interfaces on a router board;

[0029] Figure 3 A table diagram defining the 4-pin power supply interface;

[0030] Figure 4 A table diagram defining the 32-pin signal interface. Detailed Implementation

[0031] like Figure 1-4 As shown, the integrated TV structure of this utility model includes a TV body 1 and a TV motherboard 2 and a router board 3 disposed within the cavity of the TV body 1; the TV motherboard 2 and the router board 3 are connected via a standardized interface 4. The router board 3 is flexibly bonded and fixed to the cavity of the TV body 1 using double-sided foam adhesive with 3M™ 300LSE adhesive.

[0032] Router board 3 integrates wireless access point (AP) functionality and supports WiFi 5 or WiFi 6 protocols. Router board 3 has an external RJ45 input port 5 and two extended RJ45 output ports 6, both located on the back of the TV body 1. External RJ45 input port 5 is used to connect to the optical modem, and extended RJ45 output ports 6 are used to connect to external wired network terminal devices. After processing by router board 3, the external network signal is transmitted to the network signal processing chip on the TV motherboard 2 via standardized interface 4, enabling the TV to connect to the internet.

[0033] Standardized interface 4 includes power supply interface 41 and signal interface 42;

[0034] The power supply interface 41 includes a 4-pin connector for transmitting the power received by the TV motherboard 2 to the router board 3 for power supply; in the 4-pin connector of the power supply interface 41, the first pin is the +5V power output terminal (VCC), the second pin is the +5V power output terminal (VCC), the third pin is the ground terminal (GND), and the fourth pin is the ground terminal (GND).

[0035] Signal interface 42 includes a 32-pin connector, whose pins are divided into three groups according to function:

[0036] Network output signal group (Pin 1 to Pin 16): Transmits network signals from the extended RJ45 output port 6 of the router board 3; wherein, Pin 1 to Pin 8 are used to transmit the network signal of one of the extended RJ45 output ports 6; Pin 9 to Pin 16 are used to transmit the network signal of the other extended RJ45 output port 6.

[0037] Network input signal group (Pin 17 to Pin 24): Transmits network input signals from external RJ45 input port 5 of router board 3;

[0038] Communication signal group (Pin 25 to Pin 32): Transmits communication signals between router board 3 and TV motherboard 2.

[0039] In TV power-on and business standby modes, the TV motherboard 2 maintains power supply interface 41 to the router board 3, enabling it to operate independently, providing a wireless network, and providing wired network access to other network terminal devices via the extended RJ45 output port 6. In business standby mode, a dedicated power supply line controls the router board 3. When the user issues a standby command, the system enters the business standby process, turning off the screen and muting all audio output channels, while maintaining power supply from the TV motherboard 2 to the router board 3, thus enabling the router board 3 to operate independently. Users can select whether to enable business standby mode via the menu.

[0040] This utility model, through the standardized interface 4 design and the modular router board 3 design, flexibly realizes an integrated structure TV for WiFi 5 and WiFi 6 routers according to customer needs.

[0041] The specific embodiments of this utility model have been described above. However, those skilled in the art should understand that this is only an example. Those skilled in the art can make various changes or modifications to this embodiment without departing from the principle and essence of this utility model, but all such changes and modifications fall within the protection scope of this utility model.

Claims

1. A TV all-in-one structure integrating a routing AP module, comprising a TV body and a TV motherboard, characterized in that: It also includes a router board disposed inside the main body cavity of the television; the television motherboard and the router board are connected via a standardized interface; The router board integrates a wireless AP function. The router board has an external RJ45 input port and an extended RJ45 output port. The external RJ45 input port is used to connect to the optical modem, and the extended RJ45 output port is used to connect to the external wired network terminal device. After the external network signal is processed by the router board, it is transmitted to the network signal processing chip of the TV motherboard through a standardized interface to enable the TV to connect to the Internet. The standardized interface includes a power supply interface and a signal interface; The power supply interface includes a 4-pin connector, which is used to transmit the power received by the TV motherboard to the router board for power supply. The signal interface includes a 32-pin connector, whose pins are divided into three groups according to function: Network output signal group: transmits network signals from the extended RJ45 output port of the router board; Network input signal group: transmits network input signals from the external RJ45 input port of the router board; Communication signal group: Transmits communication signals between the router board and the TV motherboard.

2. The integrated TV structure with an integrated routing AP module according to claim 1, characterized in that: In both TV power-on and commercial standby modes, the TV motherboard maintains power supply to the router board via its power interface.

3. The integrated TV structure with an integrated routing AP module according to claim 1, characterized in that: The router board is fixed to the cavity of the TV body by double-sided foam adhesive.

4. The integrated TV structure with an integrated routing AP module according to claim 1, characterized in that: The router board supports WiFi 5 or WiFi 6 protocols.

5. The integrated TV structure with an integrated routing AP module according to claim 1, characterized in that: Both the external RJ45 input port and the extended RJ45 output port are located on the back of the television body.

6. The integrated TV structure with an integrated routing AP module according to claim 1, characterized in that: In the 4-pin connector of the power supply interface, the 1st pin is the +5V power output terminal, the 2nd pin is the +5V power output terminal, the 3rd pin is the ground terminal, and the 4th pin is the ground terminal.

7. The integrated TV structure with an integrated routing AP module according to claim 1, characterized in that: In the 32-pin connector of the signal interface: Pins 1 through 8 are used to transmit network signals from one of the extended RJ45 output ports; Pins 9 through 16 are used to transmit network signals from another extended RJ45 output port; Pins 17 through 24 are used to transmit network input signals from the external RJ45 input port; Pins 25 to 32 transmit communication signals between the router board and the TV motherboard.