CN110730134A - Router and network connection system - Google Patents

Abstract

The invention discloses a router and a network connection system. The router of the invention is provided with a network connection female interface protruding out of the shell of the router, the network connection female interface is used for being connected with a network connection sub-interface arranged on the side edge of the shell of the mobile terminal, and the router also comprises a first processing module, a first network transceiver module and a first interface conversion module; when the network connection female interface is connected with the network connection sub-interface, the first processing module outputs a network signal and transmits the network signal to the mobile terminal through the first network transceiver module, the first interface conversion module, the network connection female interface and the network connection sub-interface. The router and the mobile terminal are connected through the interface, so that the router can transmit the network signal to the mobile terminal in a wired mode.

Description

Router and network connection system

Technical Field

The present invention relates to the field of network connection technologies, and in particular, to a router and a network connection system.

Background

With the development of the internet and the mobile terminal, in recent years, the user has higher and higher requirements for the quality of network resources (such as video resources), the network resource files are larger and larger, and the required network bandwidth is larger and larger, so that the increasing network bandwidth requirements can be met only by requiring the network transmission quality to be more and more stable and rapid, and the user experience is better and better.

In the prior art, most mobile terminals (such as mobile phones and tablet computers) are connected with a router for surfing the internet through WIFI, wireless WIFI surfing has inherent defects, and WIFI signals are poor in transmission quality, slow in speed and prone to interference, that is, the transmission stability and speed of wireless WIFI signals are poor, and the requirements of users for large network bandwidth are difficult to meet.

Disclosure of Invention

The invention mainly provides a router and a network connection system, which can solve the problems that the transmission stability and the transmission rate of the existing WIFI signal are poor, and the requirement of a user on a larger network bandwidth is difficult to meet.

In order to solve the technical problems, the invention adopts a technical scheme that: providing a router, wherein a network connection female interface protruding out of a shell of the router is arranged on the router, the network connection female interface is used for being connected with a network connection sub-interface arranged on the side edge of the shell of a mobile terminal, and the router further comprises a first processing module, a first network transceiver module and a first interface conversion module;

when the network connection female interface is connected with the network connection sub-interface, the first processing module outputs a network signal and transmits the network signal to the mobile terminal through the first network transceiver module, the first interface conversion module, the network connection female interface and the network connection sub-interface.

Preferably, the network connection female interface is a USB female contact, the network connection male interface is a USB male contact, and the first interface conversion module is a first USB to network port conversion module;

the output end of the first processing module is connected with the input end of the first network transceiver module, and the output end of the first USB switching network port module is connected with the USB female contact;

when the USB female contact is in contact connection with the USB sub-contact, the first processing module outputs a network signal and transmits the network signal to the mobile terminal through the first network transceiver module, the first USB switching port module, the USB female contact and the USB sub-contact.

Preferably, the network connection female interface is an ethernet female contact, the network connection sub-interface is an ethernet sub-contact, and the first interface conversion module is a first network isolation module;

the output end of the first processing module is connected with the input end of the first network transceiver module, and the output end of the first network isolation module is connected with the Ethernet female contact;

when the ethernet female contact is in contact connection with the ethernet subcontact, the first processing module outputs a network signal, and the network signal is transmitted to the mobile terminal through the first network transceiver module, the first network isolation module, the ethernet female contact and the ethernet subcontact.

Preferably, the router further comprises a key module;

the controlled end of the key module is a key protruding out of the shell of the router, the first end of the key module is connected with a power ground, and the second end of the key module is connected with the input/output end of the first processing module;

after the network connection female interface is connected with the network connection sub-interface, the mobile terminal presses down the key to enable the first end and the second end of the key module to be communicated, and further the level of the input end and the output end of the first processing module changes, so that the first processing module outputs the network signal according to the change of the level.

Preferably, a power supply female interface protruding from the housing of the router is further arranged on the router, and the power supply female interface is used for being connected with a power supply sub-interface arranged on the side edge of the housing of the mobile terminal; the router also comprises a first power supply conversion module;

the input end and the output end of the first power supply conversion module are respectively connected with a power supply inside the router and the power supply female interface;

when the network connection female interface is connected with the network connection sub-interface, the power supply female interface is connected with the power supply sub-interface, and an electric signal output by the power supply is converted by the first power supply conversion module and then output, and is transmitted to the mobile terminal through the power supply female interface and the power supply sub-interface so as to charge the mobile terminal.

In order to solve the technical problem, the invention adopts another technical scheme that: the network connection system comprises a router and a mobile terminal, wherein a network connection female interface protruding out of a shell of the router is arranged on the router and used for being connected with a network connection sub-interface arranged on the side edge of the shell of the mobile terminal;

when the network connection female interface is connected with the network connection sub-interface, the first processing module outputs a network signal and transmits the network signal to the mobile terminal through the first network transceiver module, the first interface conversion module, the network connection female interface and the network connection sub-interface.

Preferably, the network connection female interface is a USB female contact, the network connection male interface is a USB male contact, and the first interface conversion module is a first USB to network port conversion module; the mobile terminal also comprises a second processing module;

the output end of the first processing module is connected with the input end of the first network transceiver module, and the output end of the first USB switching network port module is connected with the USB female contact; the USB sub-contact is connected with a USB interface of the second processing module;

when the USB female contact is in contact connection with the USB sub-contact, the first processing module outputs a network signal and transmits the network signal to the second processing module of the mobile terminal through the first network transceiver module, the first USB switching port module, the USB female contact and the USB sub-contact.

Preferably, the network connection female interface is an ethernet female contact, the network connection sub-interface is an ethernet sub-contact, and the first interface conversion module is a first network isolation module; the mobile terminal also comprises a second processing module and a second USB network switching port module;

the output end of the first processing module is connected with the input end of the first network transceiver module, and the output end of the first network isolation module is connected with the Ethernet female contact; the Ethernet sub-contact is connected with the input end of the second USB network switching port module, and the output end of the second USB network switching port module is connected with the USB interface of the second processing module;

when the ethernet female contact is in contact connection with the ethernet male contact, the first processing module outputs a network signal, and the network signal is transmitted to the second processing module of the mobile terminal through the first network transceiver module, the first network isolation module, the ethernet female contact, the ethernet male contact and the second USB network switching module.

Preferably, the network connection female interface is an ethernet female contact, the network connection sub-interface is an ethernet sub-contact, and the first interface conversion module is a first network isolation module; the mobile terminal also comprises a second processing module, a second network isolation module and a second network transceiver module;

the output end of the first processing module is connected with the input end of the first network transceiver module, and the output end of the first network isolation module is connected with the Ethernet female contact; the Ethernet sub-contact is connected with the input end of the second network isolation module, the output end of the second network isolation module is connected with the input end of the second network transceiver module, and the output end of the second network transceiver module is connected with the network interface of the second processing module;

when the ethernet female contact is in contact connection with the ethernet male contact, the first processing module outputs a network signal, and the network signal is transmitted to the second processing module of the mobile terminal through the first network transceiver module, the first network isolation module, the ethernet female contact, the ethernet male contact, the second network isolation module and the second network transceiver module.

Preferably, a power supply female interface protruding out of the housing of the router is arranged on the router, and the power supply female interface is used for being connected with a power supply sub-interface arranged on the side edge of the housing of the mobile terminal; the router also comprises a first power supply conversion module; the mobile terminal comprises a second power supply conversion module;

the input end and the output end of the first power supply conversion module are respectively connected with a power supply inside the router and the power supply female interface; the input end and the output end of the second power supply conversion module are respectively connected with the power supply sub-interface and a battery in the mobile terminal;

when the network connection female interface is connected with the network connection sub-interface, the power supply female interface is connected with the power supply sub-interface, an electric signal output by the power supply is output after being converted by the first power supply conversion module and is transmitted to the second power supply conversion module through the power supply female interface and the power supply sub-interface, and the second power supply conversion module converts the electric signal and outputs a charging signal to charge the battery.

The invention has the beneficial effects that: different from the situation of the prior art, the router of the invention is provided with a network connection female interface protruding out of the shell of the router, the network connection female interface is used for being connected with a network connection sub-interface arranged on the side edge of the shell of the mobile terminal, and the router also comprises a first processing module, a first network transceiver module and a first interface conversion module; when the network connection female interface is connected with the network connection sub-interface, the first processing module outputs a network signal and transmits the network signal to the mobile terminal through the first network transceiver module, the first interface conversion module, the network connection female interface and the network connection sub-interface. The router and the mobile terminal are connected through the interface, so that the router can transmit the network signal to the mobile terminal in a wired mode.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

fig. 1 is a schematic structural diagram of a router according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a router according to another embodiment of the present invention;

fig. 3 is a physical connection structure between a router and a mobile terminal according to another embodiment of the present invention

A schematic diagram;

fig. 4 is a schematic structural diagram of a router according to another embodiment of the present invention;

fig. 5 is a schematic structural diagram of a network connection system according to another embodiment of the present invention;

fig. 6 is a schematic structural diagram of a network connection system according to another embodiment of the present invention;

fig. 7 is a schematic structural diagram of a network connection system according to another embodiment of the present invention;

fig. 8 is a schematic structural diagram of a network connection system according to another embodiment of the present invention;

fig. 9 is a schematic structural diagram of a network connection system according to another embodiment of the present invention.

Detailed Description

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

Fig. 1 is a schematic structural diagram of a router according to an embodiment of the present invention, where a network connection female interface 400 protruding from a housing of the router is disposed on the router, the network connection female interface 400 is used for connecting with a network connection sub-interface disposed on a side of the housing of a mobile terminal, and the router further includes a first processing module 100, a first network transceiver module 200, and a first interface conversion module 300.

When the network connection female interface 400 is connected to the network connection sub-interface, the first processing module 100 outputs a network signal, and transmits the network signal to the mobile terminal through the first network transceiver module 200, the first interface conversion module 300, the network connection female interface 400, and the network connection sub-interface.

Specifically, the network connection female interface 400 may be disposed on the front side of the housing of the router, that is, the side facing upward when the router is normally placed; the network connection sub-interface may be provided on side frames, preferably a lower frame and left and right frames, of the mobile terminal housing.

Specifically, the network connection female interface 400 is a USB female contact, the network connection female interface is a USB male contact, and the first interface conversion module 300 is a first USB to network interface module. The output end of the first processing module 100 is connected to the input end of the first network transceiver module 200, and the output end of the first USB to internet port module is connected to the USB female contact.

When the USB female contact is in contact connection with the USB male contact, the first processing module 100 outputs a network signal, and transmits the network signal to the mobile terminal through the first network transceiver module 200, the first USB network interface module, the USB female contact, and the USB male contact.

The first processing module 100 is a processor in a router, the first network transceiver module 200 is a network PHY chip, and the first USB to network interface module is a chip for converting a USB interface and a network interface.

The USB female contact and the USB sub-contact are both USB interface type contacts and have a USB interface function, the USB female contact comprises four metal conductive contacts which are VCC, D +, D-and GND respectively, and the USB sub-contact also comprises four metal conductive contacts which are GND, D-, D + and VCC respectively. When the USB female contact is in contact connection with the USB sub-contact, the four metal conductive contacts of the USB female contact are in corresponding contact connection with the four metal conductive contacts of the USB sub-contact.

Specifically, the network connection female interface 400 may also be an ethernet female contact, the network connection female interface is an ethernet male contact, and the first interface conversion module 300 is a first network isolation module. The output terminal of the first processing module 100 is connected to the input terminal of the first network transceiver module 200, and the output terminal of the first network isolation module is connected to the ethernet female contact.

When the ethernet female contact is in contact connection with the ethernet male contact, the first processing module 100 outputs a network signal, and transmits the network signal to the mobile terminal through the first network transceiver module 200, the first network isolation module, the ethernet female contact and the ethernet male contact.

The first network isolation module is a network transformer.

The Ethernet mother contact and the Ethernet son contact are both Ethernet interface type contacts and have the function of an Ethernet interface. The Ethernet mother contact and the Ethernet sub-contact can be hundred mega Ethernet contacts, the Ethernet mother contact comprises four metal conductive contacts, namely TRX0+, TRX0-, TRX1+ and TRX1-, the Ethernet sub-contact comprises four metal conductive contacts, namely TRX0+, TRX0-, TRX1+ and TRX1-, and when the Ethernet mother contact is in contact connection with the Ethernet sub-contact, the four metal conductive contacts of the Ethernet mother contact are in corresponding contact connection with the four metal conductive contacts of the Ethernet sub-contact. The Ethernet mother contact and the Ethernet sub-contact can be gigabit Ethernet contacts, the Ethernet mother contact comprises eight metal conductive contacts, namely TRX0+, TRX0-, TRX1+, TRX1-, TRX2+, TRX2-, TRX3+ and TRX3-, and the Ethernet sub-contact comprises eight metal conductive contacts, namely TRX0+, TRX0-, TRX1+, TRX1-, TRX2+, TRX2-, TRX3+ and TRX3-, when the Ethernet mother contact is in contact connection with the Ethernet sub-contact, the eight metal conductive contacts of the Ethernet mother contact are in corresponding contact connection with the eight metal conductive contacts of the Ethernet sub-contact.

Specifically, as shown in fig. 2, the router further includes a key module 500; the controlled end of the key module 500 is a key protruding from the housing of the router, the first end of the key module 500 is connected to the power ground, and the second end of the key module 500 is connected to the input/output end of the first processing module 100.

When the network connection female interface 400 is connected to the network connection sub-interface, the mobile terminal presses the key to connect the first end and the second end of the key module 500, so that the level of the input/output end of the first processing module 100 changes, and the first processing module 100 outputs the network signal according to the change of the level.

The key module 500 may be a switch with a key, and the key may be disposed adjacent to the network connection female interface 400, so as to ensure that the key can be pressed down by the mobile terminal when the mobile terminal is placed on the router, i.e., after the network connection female interface 400 is connected to the network connection male interface. When the mobile terminal presses the key, the first end of the key module 500 is communicated with the second end, and then the level of the input/output end of the first processing module 100 changes, that is, the level changes from high level to low level, so that the first processing module 100 outputs a network signal according to the change of the level.

Specifically, as shown in fig. 3, fig. 3 is a schematic diagram illustrating an entity connection structure between a router and a mobile terminal, where a female contact protruding from a front housing of the router is provided on the router as a network connection female interface 400, a male contact is provided on a lower side of the housing of the mobile terminal as a network connection male interface 10, and keys are arranged in the female contact, when the mobile terminal is placed on the router, the male contact of the mobile terminal is correspondingly connected with the female contact of the router in a contact manner, and at the same time, the keys on the router are pressed down by the lower side of the mobile terminal, and the first processing module 100 in the router outputs a network signal according to a change in the level of the input/output terminal thereof, and then transmits the network signal to the mobile terminal through the female contact and the male contact.

Specifically, as shown in fig. 4, a power supply female interface 800 protruding from a housing of the router is further disposed on the router, and the power supply female interface 800 is used for connecting with a power supply sub-interface disposed on a side edge of the housing of the mobile terminal; the router also includes a first power conversion module 700. The input and output terminals of the first power conversion module 700 are respectively connected to the power supply 600 and the power supply female interface 800 inside the router.

When the network connection female interface 400 is connected with the network connection sub-interface, the power female interface 800 is connected with the power sub-interface, and an electrical signal output by the power 600 is converted by the first power conversion module 700 and then output, and is transmitted to the mobile terminal through the power female interface 800 and the power sub-interface to charge the mobile terminal.

The first power conversion module 700 is a DC/DC conversion circuit, the power female interface 800 and the power male interface can be metal conductive contacts, the power female interface 800 can be linearly arranged with the keys and the network connection female interface 400, a straight line formed by the arrangement is parallel to a long frame of the router, the power male interface can be linearly arranged with the network connection male interface, and a straight line formed by the arrangement is parallel to a side frame of the mobile terminal. The power supply female interface 800 comprises two metal conductive contacts of V + and GND, the power supply sub-interface comprises two metal conductive contacts of V + and GND, and when the power supply female interface 800 is connected with the power supply sub-interface, the two metal conductive contacts of the power supply female interface 800 are correspondingly connected with the two metal conductive contacts of the power supply sub-interface.

As shown in fig. 5, fig. 5 shows a network connection system, where the network connection system includes a router and a mobile terminal, a network connection female interface 400 protruding from a housing of the router is disposed on the router, the network connection female interface 400 is used for connecting with a network connection sub-interface 10 disposed on a side of the housing of the mobile terminal, and the router further includes a first processing module 100, a first network transceiver module 200, and a first interface conversion module 300.

When the network connection female interface 400 is connected to the network connection sub-interface 10, the first processing module 100 outputs a network signal, and transmits the network signal to the mobile terminal through the first network transceiver module 200, the first interface conversion module 300, the network connection female interface 400, and the network connection sub-interface 10.

Specifically, the network connection female interface 400 may be disposed on the front side of the housing of the router, that is, the side facing upward when the router is normally placed; the network connection sub-interface 10 may be provided on side frames, preferably a lower frame and left and right frames, of the mobile terminal housing.

Specifically, as shown in fig. 6, the network connection female interface 400 is a USB female contact 401, the network connection sub-interface 10 is a USB sub-contact 11, and the first interface conversion module 300 is a first USB to network interface module 301; the mobile terminal further comprises a second processing module 20.

The output end of the first processing module 100 is connected with the input end of the first network transceiver module 200, and the output end of the first USB rotary network interface module 301 is connected with the USB female contact 401; the USB subcontact 11 is connected to the USB interface of the second processing module 20.

When the USB female contact 401 is in contact connection with the USB sub-contact 11, the first processing module 100 outputs a network signal, and transmits the network signal to the second processing module 20 of the mobile terminal through the first network transceiver module 200, the first USB switching port module 301, the USB female contact 401, and the USB sub-contact 11.

The first processing module 100 is a processor in a router, the first network transceiver module 200 is a network PHY chip, the first USB to network interface module 301 is a chip for converting a USB interface and a network interface, and the second processing module 20 is a processor in a mobile terminal. The USB sub-contact 11 is a USB interface type contact and has a USB interface function, the USB sub-contact 11 comprises four metal conductive contacts which are respectively GND, D-, D + and VCC, and the USB female contact 401 comprises four metal conductive contacts which are respectively VCC, D +, D-and GND. When the USB female contact 401 is in contact connection with the USB sub-contact 11, the four metal conductive contacts of the USB female contact 401 are in corresponding contact connection with the four metal conductive contacts of the USB sub-contact 11.

Specifically, as shown in fig. 7, the network connection female interface 400 may also be an ethernet female contact 402, the network connection female interface 10 is an ethernet male contact 12, and the first interface conversion module 300 is the first network isolation module 302; the mobile terminal further includes a second processing module 20 and a second USB to web module 30.

The output end of the first processing module 100 is connected with the input end of the first network transceiver module 200, and the output end of the first network isolation module 302 is connected with the ethernet female contact 402; the ethernet subcontact 12 is connected to an input terminal of the second USB network switching module 30, and an output terminal of the second USB network switching module 30 is connected to a USB interface of the second processing module 20.

When the ethernet female contact 402 is in contact connection with the ethernet male contact 12, the first processing module 100 outputs a network signal, and the network signal is transmitted to the second processing module 20 of the mobile terminal through the first network transceiver module 200, the first network isolation module 302, the ethernet female contact 402, the ethernet male contact 12, and the second USB network switching module 30.

The first network isolation module 302 is a network transformer, the second processing module 20 is a processor in the mobile terminal, and the second USB switching network module 30 is a chip for switching a USB interface and a network interface. The ethernet female contact 402 and the ethernet male contact 12 are both ethernet interface type contacts, having an ethernet interface function. The ethernet female contact 402 and the ethernet sub-contact 12 may be a hundred mega ethernet contact, the ethernet female contact 402 includes four metal conductive contacts, which are TRX0+, TRX0-, TRX1+, TRX1-, the ethernet sub-contact 12 includes four metal conductive contacts, which are TRX0+, TRX0-, TRX1+, TRX1-, when the ethernet female contact 402 is in contact connection with the ethernet sub-contact 12, the four metal conductive contacts of the ethernet female contact 402 are in contact connection with the four metal conductive contacts of the ethernet sub-contact 12. The ethernet female contact 402 and the ethernet sub-contact 12 may be gigabit ethernet contacts, the ethernet female contact 402 includes eight metal conductive contacts, which are TRX0+, TRX0-, TRX1+, TRX1-, TRX2+, TRX2-, TRX3+, TRX3-, and the ethernet sub-contact 12 includes eight metal conductive contacts, which are TRX0+, TRX0-, TRX1+, TRX1-, TRX2+, TRX2-, TRX3+, and TRX3-, when the ethernet female contact 402 is in contact connection with the ethernet sub-contact 12, the ethernet female contact 402 is in contact connection with the eight metal conductive contacts of the ethernet sub-contact 12.

Specifically, as shown in fig. 8, the network connection female interface 400 is an ethernet female contact 402, the network connection sub-interface 10 is an ethernet sub-contact 12, and the first interface conversion module 300 is a first network isolation module 302; the mobile terminal further includes a second processing module 20, a second network isolation module 40 and a second network transceiver module 50.

The output end of the first processing module 100 is connected with the input end of the first network transceiver module 200, and the output end of the first network isolation module 302 is connected with the ethernet female contact 402; the ethernet subcontact 12 is connected to an input of the second network isolation module 40, an output of the second network isolation module 40 is connected to an input of the second network transceiver module 50, and an output of the second network transceiver module 50 is connected to a network interface of the second processing module 20.

When the ethernet female contact 402 is in contact connection with the ethernet male contact 12, the first processing module 100 outputs a network signal, and the network signal is transmitted to the second processing module 20 of the mobile terminal through the first network transceiver module 200, the first network isolation module 302, the ethernet female contact 402, the ethernet male contact 12, the second network isolation module 40, and the second network transceiver module 50.

The first network isolation module 302 and the second network isolation module 40 are both network transformers, and the second network transceiver module 50 is a network PHY chip. The specific structural descriptions of the ethernet female contact 402 and the ethernet sub-contact 12 are the same as those described above, and are not repeated herein.

Specifically, as shown in fig. 9, a power supply mother interface 800 protruding from the housing of the router is disposed on the router, and the power supply mother interface 800 is configured to be connected to a power supply sub-interface 80 disposed on a side edge of the housing of the mobile terminal; the router also includes a first power conversion module 700; the mobile terminal includes a second power conversion module 70. The first power conversion module 700 and the second power conversion module 70 are both DC/DC conversion circuits.

The input end and the output end of the first power conversion module 700 are respectively connected with a power supply and a power supply female interface 800 inside the router; the input and output terminals of the second power conversion module 70 are connected to the power supply sub-interface 80 and the battery 60 in the mobile terminal, respectively.

When the network connection female interface 400 is connected to the network connection sub-interface 10, the power female interface 800 is connected to the power sub-interface 80, the electrical signal output by the power is converted by the first power conversion module 700 and then output, and is transmitted to the second power conversion module 70 through the power female interface 800 and the power sub-interface 80, and the second power conversion module 70 converts the electrical signal and outputs the charging signal to charge the battery 60.

The first power conversion module 700 is a DC/DC conversion circuit, the power female interface 800 and the power sub-interface 80 can be metal conductive contacts, the power female interface 800 can be linearly arranged with the keys and the network connection female interface 400, a straight line formed by the arrangement is parallel to a long frame of the router, the power sub-interface 80 can be linearly arranged with the network connection sub-interface 10, and a straight line formed by the arrangement is parallel to a side frame of the mobile terminal. The power supply female interface 800 comprises two metal conductive contacts of V + and GND, the power supply sub-interface 80 comprises two metal conductive contacts of V + and GND, and when the power supply female interface 800 is connected with the power supply sub-interface 80, the two metal conductive contacts of the power supply female interface 800 are correspondingly connected with the two metal conductive contacts of the power supply sub-interface 80.

In the invention, a network connection female interface protruding out of a shell of the router is arranged on the router, the network connection female interface is used for being connected with a network connection sub-interface arranged on the side edge of the shell of the mobile terminal, and the router also comprises a first processing module, a first network transceiver module and a first interface conversion module; when the network connection female interface is connected with the network connection sub-interface, the first processing module outputs a network signal and transmits the network signal to the mobile terminal through the first network transceiver module, the first interface conversion module, the network connection female interface and the network connection sub-interface. The router and the mobile terminal are connected through the interface, so that the router can transmit the network signal to the mobile terminal in a wired mode.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A router is characterized in that a network connection female interface protruding out of a shell of the router is arranged on the router and used for being connected with a network connection sub-interface arranged on the side edge of the shell of a mobile terminal, and the router further comprises a first processing module, a first network transceiver module and a first interface conversion module;

when the network connection female interface is connected with the network connection sub-interface, the first processing module outputs a network signal and transmits the network signal to the mobile terminal through the first network transceiver module, the first interface conversion module, the network connection female interface and the network connection sub-interface.

2. The router according to claim 1, wherein the network connection female interface is a USB female contact, the network connection female interface is a USB male contact, and the first interface conversion module is a first USB network interface conversion module;

the output end of the first processing module is connected with the input end of the first network transceiver module, and the output end of the first USB switching network port module is connected with the USB female contact;

when the USB female contact is in contact connection with the USB sub-contact, the first processing module outputs a network signal and transmits the network signal to the mobile terminal through the first network transceiver module, the first USB switching port module, the USB female contact and the USB sub-contact.

3. The router according to claim 1, wherein the network connection female interface is an ethernet female contact, the network connection female interface is an ethernet male contact, and the first interface conversion module is a first network isolation module;

the output end of the first processing module is connected with the input end of the first network transceiver module, and the output end of the first network isolation module is connected with the Ethernet female contact;

when the ethernet female contact is in contact connection with the ethernet subcontact, the first processing module outputs a network signal, and the network signal is transmitted to the mobile terminal through the first network transceiver module, the first network isolation module, the ethernet female contact and the ethernet subcontact.

4. The router of claim 1, further comprising a key module;

the controlled end of the key module is a key protruding out of the shell of the router, the first end of the key module is connected with a power ground, and the second end of the key module is connected with the input/output end of the first processing module;

after the network connection female interface is connected with the network connection sub-interface, the mobile terminal presses down the key to enable the first end and the second end of the key module to be communicated, and further the level of the input end and the output end of the first processing module changes, so that the first processing module outputs the network signal according to the change of the level.

5. The router according to claim 1, wherein a power supply female interface protruding from a housing of the router is further disposed on the router, and the power supply female interface is configured to connect with a power supply sub-interface disposed on a side of a housing of the mobile terminal; the router also comprises a first power supply conversion module;

the input end and the output end of the first power supply conversion module are respectively connected with a power supply inside the router and the power supply female interface;

when the network connection female interface is connected with the network connection sub-interface, the power supply female interface is connected with the power supply sub-interface, and an electric signal output by the power supply is converted by the first power supply conversion module and then output, and is transmitted to the mobile terminal through the power supply female interface and the power supply sub-interface so as to charge the mobile terminal.

6. A network connection system is characterized in that the network connection system comprises a router and a mobile terminal, a network connection female interface protruding out of a shell of the router is arranged on the router, the network connection female interface is used for being connected with a network connection sub-interface arranged on the side edge of the shell of the mobile terminal, and the router further comprises a first processing module, a first network transceiver module and a first interface conversion module;

when the network connection female interface is connected with the network connection sub-interface, the first processing module outputs a network signal and transmits the network signal to the mobile terminal through the first network transceiver module, the first interface conversion module, the network connection female interface and the network connection sub-interface.

7. The network connection system according to claim 6, wherein the network connection female interface is a USB female contact, the network connection sub-interface is a USB sub-contact, and the first interface conversion module is a first USB to internet interface module; the mobile terminal also comprises a second processing module;

the output end of the first processing module is connected with the input end of the first network transceiver module, and the output end of the first USB switching network port module is connected with the USB female contact; the USB sub-contact is connected with a USB interface of the second processing module;

when the USB female contact is in contact connection with the USB sub-contact, the first processing module outputs a network signal and transmits the network signal to the second processing module of the mobile terminal through the first network transceiver module, the first USB switching port module, the USB female contact and the USB sub-contact.

8. The network connection system according to claim 6, wherein the network connection female interface is an ethernet female contact, the network connection sub-interface is an ethernet sub-contact, and the first interface conversion module is a first network isolation module; the mobile terminal also comprises a second processing module and a second USB network switching port module;

the output end of the first processing module is connected with the input end of the first network transceiver module, and the output end of the first network isolation module is connected with the Ethernet female contact; the Ethernet sub-contact is connected with the input end of the second USB network switching port module, and the output end of the second USB network switching port module is connected with the USB interface of the second processing module;

when the ethernet female contact is in contact connection with the ethernet male contact, the first processing module outputs a network signal, and the network signal is transmitted to the second processing module of the mobile terminal through the first network transceiver module, the first network isolation module, the ethernet female contact, the ethernet male contact and the second USB network switching module.

9. The network connection system according to claim 6, wherein the network connection female interface is an ethernet female contact, the network connection sub-interface is an ethernet sub-contact, and the first interface conversion module is a first network isolation module; the mobile terminal also comprises a second processing module, a second network isolation module and a second network transceiver module;

the output end of the first processing module is connected with the input end of the first network transceiver module, and the output end of the first network isolation module is connected with the Ethernet female contact; the Ethernet sub-contact is connected with the input end of the second network isolation module, the output end of the second network isolation module is connected with the input end of the second network transceiver module, and the output end of the second network transceiver module is connected with the network interface of the second processing module;

when the ethernet female contact is in contact connection with the ethernet male contact, the first processing module outputs a network signal, and the network signal is transmitted to the second processing module of the mobile terminal through the first network transceiver module, the first network isolation module, the ethernet female contact, the ethernet male contact, the second network isolation module and the second network transceiver module.

10. The network connection system according to claim 6, wherein the router is provided with a power female interface protruding from a housing of the router, and the power female interface is used for connecting with a power sub-interface provided on a side of a housing of the mobile terminal; the router also comprises a first power supply conversion module; the mobile terminal comprises a second power supply conversion module;

the input end and the output end of the first power supply conversion module are respectively connected with a power supply inside the router and the power supply female interface; the input end and the output end of the second power supply conversion module are respectively connected with the power supply sub-interface and a battery in the mobile terminal;

when the network connection female interface is connected with the network connection sub-interface, the power supply female interface is connected with the power supply sub-interface, an electric signal output by the power supply is output after being converted by the first power supply conversion module and is transmitted to the second power supply conversion module through the power supply female interface and the power supply sub-interface, and the second power supply conversion module converts the electric signal and outputs a charging signal to charge the battery.

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