CN111641999B - Electronic equipment and signal processing method - Google Patents

Abstract

The application provides an electronic device and a signal processing method, the electronic device includes: the routing module is detachably arranged in the electronic equipment so that the routing module can be integrated in the electronic equipment. The mobile network module is positioned on a mainboard of the electronic equipment and used for accessing a mobile network signal; the multi-port forwarding module is used for receiving the mobile network signal, converting the mobile network signal into a first network signal and a second network signal, and providing the first network signal for the electronic equipment, so that the electronic equipment is accessed to a network through the first network signal. The routing module converts the second network signal into a local area network signal and provides the local area network signal for other electronic equipment, so that the electronic equipment is not only equipment which can be accessed to a network, but also can be used as local area network signal providing equipment, and the electronic equipment becomes routing equipment for providing the local area network signal.

Description

Electronic equipment and signal processing method

Technical Field

The present application belongs to the field of communications technologies, and in particular, to an electronic device and a signal processing method.

Background

At present, electronic devices can access to mobile network signals or bandwidth network signals, and access to a network through the mobile network signals or the bandwidth network signals.

Disclosure of Invention

In view of the above, an object of the present invention is to provide an electronic device and a signal processing method, in which when the electronic device accesses a network, a local area network signal is provided to another electronic device through the electronic device, so that the other electronic device can access the network through the electronic device.

In one aspect, the present application provides an electronic device, comprising: the system comprises a routing module, a mobile network module and a multi-port forwarding module;

the routing module is detachably arranged in the electronic equipment so that the routing module can be integrated in the electronic equipment;

the mobile network module is positioned on a mainboard of the electronic equipment and used for accessing a mobile network signal;

the multi-port forwarding module is connected with the mobile network module through a line arranged in the mainboard and a port corresponding to the line, and is used for receiving the mobile network signal, converting the mobile network signal into a first network signal and a second network signal, providing the first network signal for the electronic equipment, and enabling the electronic equipment to access a network through the first network signal;

the routing module is configured to convert the second network signal into a local area network signal, and provide the local area network signal to other electronic devices except the electronic device, where the local area network signal is used to enable the other electronic devices to interact with the electronic device in a network connection state by using the network identification information of the local area network signal.

Optionally, the multi-port forwarding module is configured to receive a bandwidth network signal, convert the bandwidth network signal into a third network signal and a fourth network signal, and provide the third network signal to the electronic device, so that the electronic device accesses a network through the third network signal;

the routing module is further configured to convert the fourth network signal into a local area network signal.

Optionally, if the multi-port forwarding module receives the mobile network signal and receives the bandwidth network signal, the multi-port forwarding module selects one network signal from the mobile network signal and the bandwidth network signal to perform conversion;

the multi-port forwarding module is further configured to select another network signal of the mobile network signal and the bandwidth network signal for conversion in response to a signal switching instruction.

Optionally, the multi-port forwarding module is integrated in the routing module, and the routing module has a first network port; a second network port is arranged on a mainboard of the electronic equipment;

the electronic device receiving the bandwidth network signal through any one of the first network port and the second network port; if the electronic device receives the bandwidth network signal through the second network port, a multi-port forwarding module integrated in the routing module receives the broadband network signal received by the second network port through a line arranged in the mainboard and a port corresponding to the line;

and the multi-port forwarding module acquires the mobile network signal accessed by the mobile network module through a line arranged in the mainboard and a port corresponding to the line.

Optionally, the multi-port forwarding module is located in the motherboard, and the multi-port forwarding module is connected to the routing module through a line set in the motherboard and a port corresponding to the line.

Optionally, the routing module includes: a conversion unit and a local area network unit;

the conversion unit is used for converting the second network signal into a local area network signal;

the local area network unit is used for providing the local area network signal for other electronic equipment except the electronic equipment.

Optionally, the electronic device further includes: and the network hotspot conversion module is used for generating a wireless network hotspot corresponding to the mobile network signal, and the wireless network hotspot is a wireless network signal provided for the other electronic equipment.

Optionally, if the routing module is installed in the electronic device, the electronic device provides the local area network signal through the routing module; and if the routing module is detached from the electronic equipment, the electronic equipment provides the wireless network signal through the network hotspot conversion module.

Optionally, the electronic device further includes: the hot spot control module is used for starting or closing a wireless network hot spot function;

the network hotspot conversion module is configured to generate a wireless network hotspot corresponding to the mobile network signal when the hotspot control module enables the wireless network hotspot function, and prohibit generation of the wireless network hotspot corresponding to the mobile network signal when the hotspot control module closes the wireless network hotspot function.

In another aspect, the present application provides a signal processing method, including:

accessing a mobile network signal through a mobile network module in the electronic equipment;

receiving the mobile network signal through a multi-port forwarding module in the electronic equipment, and converting the mobile network signal into a first network signal and a second network signal, wherein the multi-port forwarding module is connected with the mobile network module through a line arranged in a main board of the electronic equipment and a port corresponding to the line;

providing the first network signal to the electronic device through the multi-port forwarding module;

converting the second network signal into a local area network signal through a routing module in the electronic device, and providing the local area network signal to other electronic devices except the electronic device, wherein the local area network signal is used for enabling the other electronic devices to interact with the electronic device in a network connection state by using network identification information of the local area network signal, and the routing module is detachably arranged in the electronic device so as to enable the routing module to be integrated in the electronic device.

The electronic device includes: a routing module, a mobile network module and a multi-port forwarding module, wherein the routing module is detachably provided in the electronic device so that the routing module can be integrated in the electronic device. The mobile network module is positioned on a mainboard of the electronic equipment and used for accessing a mobile network signal; the multi-port forwarding module is connected with the mobile network module through a line arranged in the mainboard and a port corresponding to the line, receives a mobile network signal through the line and the port, converts the mobile network signal into a first network signal and a second network signal, provides the first network signal for the electronic equipment, and enables the electronic equipment to access a network through the first network signal. The routing module converts the second network signal into a local area network signal, provides the local area network signal for other electronic equipment except the electronic equipment, enables the other electronic equipment to interact with the electronic equipment in a network connection state by using the network identification information of the local area network signal, achieves the purpose of providing the local area network signal for the other electronic equipment through the routing module in the electronic equipment, and enables the other electronic equipment to be accessed into the network by means of the electronic equipment, so that the electronic equipment is not only a device capable of being accessed into the network, but also can be used as the local area network signal providing equipment, and enables the electronic equipment to become routing equipment for providing the local area network signal.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure;

fig. 2 is an architecture diagram of an electronic device according to an embodiment of the present application;

fig. 3 is an application diagram of an electronic device according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of another electronic device provided in an embodiment of the present application;

FIG. 5 is an architecture diagram of another electronic device provided by an embodiment of the present application;

fig. 6 is a flowchart of a signal processing method according to an embodiment of the present application;

fig. 7 is a flowchart of another signal processing method according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all 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 application.

Referring to fig. 1, an alternative structure of an electronic device provided in an embodiment of the present application is shown, which may include: a routing module 10, a mobile network module 20 and a multi-port forwarding module 30. The routing module 10 is detachably disposed in the electronic device so that the routing module 10 can be integrated in the electronic device, thereby illustrating that the routing module 10 is a hardware module so that the routing module 10 can be detachably disposed in the electronic device.

The mobile network module 20 is located on a main board of the electronic device and is configured to access a mobile network signal, where the mobile network signal accessible by the mobile network module 20 is related to a type of the mobile network signal supported by the mobile network module 20, for example, if the mobile network module 20 supports a 5G network signal, the mobile network module 20 may access a 5G network signal and a mobile network signal with performance inferior to the 5G network signal, such as a 3G network signal and a 4G network signal. It should be noted that the main board is not necessarily a circuit board where the main circuit system of the electronic device is located, and may also be an auxiliary circuit board that serves other auxiliary functions.

The multi-port forwarding module 30 is connected to the mobile network module 20 through a line and a port corresponding to the line, which are disposed in the motherboard, and both the multi-port forwarding module 30 and the mobile network module 20 are hardware modules, and transmit a mobile network signal accessed by the mobile network module 20 to the multi-port forwarding module 30 through the line and the port in the motherboard.

After the multi-port forwarding module 30 receives the mobile network signal, the multi-port forwarding module 30 converts the mobile network signal into a first network signal and a second network signal, and provides the first network signal to the electronic device, so that the electronic device can access the network through the first network signal, and thus the electronic device can access the network under the condition that the mobile network module 20 accesses the mobile network signal, so as to maintain the network connection of the electronic device through the mobile network signal. In this embodiment, the multi-port forwarding module 30 can convert one mobile network signal into two network signals, and the HUB (HUB) is a multi-port repeater, and after accessing one network signal, the HUB outputs multiple network signals, so that the multi-port forwarding module 30 in this embodiment can be implemented by the HUB.

And the routing module 10 is configured to convert the second network signal into a local area network signal, and provide the local area network signal to other electronic devices except the electronic device, where the local area network signal is used to enable the other electronic devices to interact with the electronic device in a network connection state by using the network identification information of the local area network signal. The network identification information is used for uniquely pointing to the local area network signal, and for example, the network identification information includes: the name, the password, the IP address and the like of the local area network signal enable other electronic equipment to be accessed into the network by using the local area network signal through the network identification information, so that the other electronic equipment can interact with the electronic equipment in a network connection state.

The multi-port forwarding module 30 may transmit the second network signal to the routing module 10 through a wireless transmission mode or a wired transmission mode, and one of the wired transmission modes may establish a line between the multi-port forwarding module 30 and the routing module 10, and set ports matched with the transmission lines in the multi-port forwarding module 30 and the routing module 10, so that the multi-port forwarding module 30 transmits the second network signal to the line through the ports, transmits the second network signal to the ports of the routing module through the line, and the routing module 10 receives the second network signal.

One relationship between the multi-port forwarding module 30 and the routing module 10 is: the multi-port forwarding module 30 is arranged on the motherboard independently from the routing module 10, and in such a structure, the multi-port forwarding module 30 is connected with the routing module 10 through a line arranged in the motherboard and a port corresponding to the line, for example, a line is led out from a pin of the multi-port forwarding module 30 (printed by a printing method), another pin corresponding to the line is reserved on the motherboard, and the pins at two ends of the line are regarded as ports, so that a second network signal can be transmitted to the outside through the pins and the line, and the routing module 10 receives the second network signal; when the multi-port forwarding module 30 is disposed on the motherboard independently of the routing module 10, the multi-port forwarding module 30 and the routing module 10 may also be connected in other manners, such as wireless connection, so that the multi-port forwarding module 30 can send the second network signal to the routing module 10 in a wireless transmission manner.

Another relationship between the multi-port forwarding module 30 and the routing module 10 is: the multi-port forwarding module 30 is integrated in the routing module, the multi-port forwarding module 30 obtains a mobile network signal accessed by the mobile network module 20 through a line arranged in a motherboard and a port corresponding to the line, and the multi-port forwarding module 30 and the routing module 10 can also transmit a second network signal in at least one of a wireless transmission mode and a wired transmission mode, for example, in the transmission process in the wired transmission mode, the multi-port forwarding module 30 and the routing module 10 are arranged on the same motherboard, and the line is printed between a pin of the multi-port forwarding module 30 and a pin of the routing module 10 on the motherboard, so that a path is established between the multi-port forwarding module 30 and the routing module 10, and the second network signal is transmitted through the path.

In this embodiment, the routing module 10 includes: the conversion unit is used for converting the second network signal into a local network signal, and if the conversion unit has a routing function, the conversion from the second network signal to the local network signal is realized through the routing function; the local area network unit is used for providing local area network signals for other electronic equipment except the electronic equipment, for example, the local area network unit can provide the local area network signals to the outside similar to an antenna, so that other electronic equipment in the coverage range of the local area network signals can access the network by using the network identification information of the local area network signals.

As can be seen from the above technical solution, the electronic device includes: a routing module 10, a mobile network module 20 and a multi-port forwarding module 30, wherein the routing module 10 is detachably provided in the electronic device so that the routing module 10 can be integrated in the electronic device. The mobile network module 20 is located on a main board of the electronic device and is used for accessing a mobile network signal; the multi-port forwarding module 30 is connected to the mobile network module 20 through a line and a port corresponding to the line, which are disposed in the motherboard, and receives the mobile network signal through the line and the port, converts the mobile network signal into a first network signal and a second network signal, and provides the first network signal to the electronic device, so that the electronic device accesses the network through the first network signal. The routing module 10 converts the second network signal into a local area network signal, provides the local area network signal to other electronic devices except the electronic device, and enables the other electronic devices to interact with the electronic device in a network connection state by using the network identification information of the local area network signal, so that the local area network signal is provided to the other electronic devices through the routing module in the electronic device, and the other electronic devices can be accessed into the network by means of one electronic device, so that the electronic device is not only a device capable of being accessed into the network, but also can be used as a local area network signal providing device, and the electronic device becomes a routing device for providing the local area network signal.

In the present embodiment, an architecture of the electronic device is shown in fig. 2, wherein the mobile network module 20 is an antenna module, such as a 5G antenna module, and receives 5G network signals as mobile network signals through the 5G antenna module, the multi-port forwarding module 30 is a HUB, and transmits the 5G network signals to a network port of the HUB in a wired transmission manner, the HUB converts the mobile network signals into first network signals and second network signals after passing through the HUB, the first network signals and the second network signals are respectively output through a network port of the HUB, the first network signals can be provided to a motherboard of the electronic device for enabling the electronic device to access the network through the first network signals, the second network signals are transmitted to the routing module 10 installed in the electronic device, the routing module 10 performs conversion of the second network signals into local network signals, and providing the local area network signal to other electronic equipment, so that other electronic equipment positioned in the coverage range of the local area network signal can access the network by using the network identification information of the local area network signal.

If an existing computer is modified, a position is reserved in the computer for installing the routing module 10, and an antenna module and a HUB (which can be integrated in the computer or integrated in the routing module) in the computer are combined, so that the computer can access a network through a mobile network signal and can provide a local network signal for other electronic equipment.

At present, an electronic device can access a network through a mobile network signal, and can also access the network through a bandwidth network signal, if the electronic device accesses the network through the bandwidth network signal, the working processes of the multi-port forwarding module 30 and the routing module 10 in the electronic device are as follows:

the multi-port forwarding module 30 is configured to receive the bandwidth network signal, convert the bandwidth network signal into a third network signal and a fourth network signal, and provide the third network signal to the electronic device, so that the electronic device accesses the network through the third network signal.

The routing module 10 is further configured to convert the fourth network signal into a local area network signal, so as to provide the local area network signal converted from the fourth network signal to other electronic devices.

As shown in fig. 3, the computer accesses the broadband network signal, and the multi-port forwarding module 30 and the routing module 10 complete the conversion from the broadband network signal to the local network signal, so that the computer can provide the local network signal, and then other electronic devices, such as mobile phones and home appliances, located in the coverage area of the local network signal can access the network by using the network identification information of the local network signal.

Under the condition that the electronic device has the functions of accessing the network through the broadband network signal and providing the local network signal based on the broadband network signal, the relationship between the multi-port forwarding module 30 and the routing module 10 is as follows:

in one relationship, the multi-port forwarding module 30 is integrated into the routing module 10, and the routing module 10 has a first network port and the motherboard of the electronic device has a second network port; the electronic device receives the broadband network signal through any one of the first network port and the second network port, and if the electronic device receives the broadband network signal through the second network port, the multi-port forwarding module 30 integrated in the routing module 10 receives the broadband network signal received by the second network port through a line arranged in a main board of the electronic device and a port corresponding to the line; the multi-port forwarding module 10 obtains the mobile network signal accessed by the mobile network module 20 through the line set in the electronic device motherboard and the port corresponding to the line, which may be referred to in the above description.

If the broadband network signal is received through the first network port in the routing module 10, the first network port may be used as a network port of the multi-port forwarding module 30, and the multi-port forwarding module 30 directly receives the broadband network signal from the first network port, or a path may be established between the first network port and the multi-port forwarding module 30, and a manner of establishing the path through path transmission is referred to the above description, and details are not described here.

In another relationship, the multi-port forwarding module 30 is located in a motherboard of the electronic device, and the multi-port forwarding module 30 is connected to the routing module 10 through a line set in the motherboard of the electronic device and a port corresponding to the line, and in this relationship, please refer to the above description for a way that the multi-port forwarding module 30 receives the mobile network signal, which is not described again in this embodiment; in this relationship, the multi-port forwarding module 30 may receive the broadband network signal by providing a network port in the electronic device, and transmitting the broadband network signal to the multi-port forwarding module 30 through the network port. After the multi-port forwarding module 30 completes the conversion of the mobile network signal or the broadband network signal, the manner of transmitting the corresponding network signal to the routing module 10 can be referred to the above description, and will not be described in detail here.

For the multi-port forwarding module 30, if the multi-port forwarding module 30 receives the mobile network signal and receives the broadband network signal, the multi-port forwarding module 30 is limited by the multi-port forwarding module 30 to convert a type of network signal, and the multi-port forwarding module 30 selects one network signal from the mobile network signal and the broadband network signal to convert, for example, selects the mobile network signal to convert, that is, the multi-port forwarding module 30 converts the mobile network signal into the first network signal and the second network signal, because the broadband network signal is more stable than the mobile network signal, the multi-port forwarding module 30 in this embodiment may select the broadband network signal to convert.

The multiport forwarding module 30 is further configured to respond to a signal switching instruction, and select another network signal from the mobile network signal and the broadband network signal to be switched, where the signal switching instruction may be generated in a process of manually switching the mobile network signal and the broadband network signal by a user, or may be generated in a process of monitoring the network signal converted by the multiport forwarding module 30, and if the signal quality of the network signal converted by the multiport forwarding module 30 is monitored to be poor, the multiport forwarding module 30 is configured to enable the electronic device to switch between the mobile network signal and the broadband network signal, so as to meet different requirements of the user.

Referring to fig. 4, which shows an alternative structure of another electronic device provided in the embodiment of the present application, the electronic device shown in fig. 1 may further include: the network hotspot conversion module 40 is configured to generate a wireless network hotspot corresponding to the mobile network signal, where the wireless network hotspot is a wireless network signal provided to other electronic devices, and thus other electronic devices may access the network by using the wireless network hotspot.

The network hotspot conversion module 40 can be implemented by an application program with a function of providing a wireless network hotspot, a mobile network signal is used as a parameter input of the application program, a wireless network hotspot is generated through the application program, and a password of the wireless network hotspot can be manually set by a user, so that the wireless network hotspot can be selected from other electronic equipment and can be accessed to a network after the password of the wireless network hotspot is input.

An architecture diagram of the electronic device shown in fig. 4 is shown in fig. 5, where the mobile network module 20 is an antenna module, such as a 5G antenna module, and receives a 5G network signal as a mobile network signal through the 5G antenna module, the 5G network signal is transmitted to a processor of the electronic device, the processor runs an application program (denoted by APP in fig. 5) having a function of providing a wireless network hotspot, the APP generates a wireless network hotspot of the 5G network signal, and the wireless network hotspot can be provided for electronic devices such as a mobile phone. If an APP with the function of providing a wireless network hotspot is configured in the computer, the wireless network hotspot can be provided through the APP after the computer accesses a mobile network signal.

In this embodiment, the electronic device may provide the local area network signal through the routing module 10 and provide the wireless network hotspot through the network hotspot converting module 40, and both of the two manners may enable other electronic devices to access the network, so that if the routing module 10 is installed in the electronic device, the electronic device provides the local area network signal through the routing module 10; if the routing module 10 is removed from the electronic device, the electronic device provides a wireless network signal through the network hotspot switching module 40. The local area network signals provided by the routing module 10 when the routing module 10 is installed in an electronic device are due to: compared with the wireless network signal provided by the network hotspot switching module 40, the range and distance covered by the local network signal provided by the routing module 10 are greater than the wireless network signal provided by the network hotspot switching module 40, so that the routing module is adopted to provide the local network signal as much as possible in the embodiment, and the routing module 10 is detachably arranged in the electronic device, and in the process of selling the electronic device, the routing module 10 is used as an optional device to be selected by a user whether to purchase the routing module 10 at the same time in the purchasing process, so that the purchasing selectivity of the user is increased.

For the electronic device shown in fig. 4, the method may further include: the hot spot control module is used for starting or closing the wireless network hot spot function. The network hotspot conversion module is used for generating a wireless network hotspot corresponding to the mobile network signal under the condition that the hotspot control module enables the wireless network hotspot function, and forbidding generation of the wireless network hotspot corresponding to the mobile network signal under the condition that the hotspot control module closes the wireless network hotspot function, so as to control the network hotspot conversion module through the hotspot control module.

Corresponding to the above device embodiment, an embodiment of the present application further provides a signal processing method, a flowchart of which is shown in fig. 6, and the method may include the following steps:

101: the mobile network module in the electronic device is connected to the mobile network signal, and the mobile network module can be arranged in a main board of the electronic device.

102: the multi-port forwarding module in the electronic equipment receives the mobile network signal and converts the mobile network signal into a first network signal and a second network signal, and the multi-port forwarding module is connected with the mobile network module through a line arranged in a mainboard of the electronic equipment and a port corresponding to the line.

103: the first network signal is provided to the electronic device through the multi-port forwarding module.

104: and converting the second network signal into a local network signal through a routing module in the electronic equipment, and providing the local network signal for other electronic equipment except the electronic equipment, wherein the local network signal is used for enabling other electronic equipment to interact with the electronic equipment in a network connection state by using network identification information of the local network signal, and the routing module is detachably arranged in the electronic equipment so as to enable the routing module to be integrated in the electronic equipment.

For the relationship among the mobile network module, the multi-port forwarding module and the routing module and the transmission of signals among these modules, please refer to the above-mentioned embodiment of the apparatus, which will not be described in detail herein.

The embodiment of the present application further provides another signal processing method as shown in fig. 7, and on the basis of fig. 6, the method may further include the following steps:

105: the multi-port forwarding module receives the bandwidth network signal, converts the bandwidth network signal into a third network signal and a fourth network signal, and provides the third network signal for the electronic equipment, so that the electronic equipment is accessed to a network through the third network signal.

106: and converting the fourth network signal into a local network signal, and providing the local network signal for other electronic equipment except the electronic equipment.

The points to be explained here are: the process of converting the broadband network signal received by the multi-port forwarding module does not need to go through the above steps 101 to 104, and can directly execute the steps 105 and 106.

If the multiport forwarding module receives the mobile network signal and the bandwidth network signal, selecting one network signal from the mobile network signal and the bandwidth network signal through the multiport forwarding module for conversion; the signal processing method provided by this embodiment further responds to the signal switching instruction through the multi-port forwarding module, and selects another network signal of the mobile network signal and the bandwidth network signal to perform conversion, so as to implement switching between the mobile network signal and the bandwidth network signal.

As for the signal processing method, the signal processing method provided by this embodiment may further include: and generating a wireless network hotspot corresponding to the mobile network signal through a network hotspot conversion module in the electronic equipment, wherein the wireless network hotspot is a wireless network signal provided for other electronic equipment.

If the routing module is installed in the electronic device, the local area network signal is provided through the routing module. And if the routing module is detached from the electronic equipment, providing a wireless network signal through the network hotspot conversion module.

In addition, the embodiment can also control the network hotspot conversion module, such as enabling or closing the wireless network hotspot function in the electronic device; if the hotspot control module starts the wireless network hotspot function, a wireless network hotspot corresponding to the mobile network signal is generated through the network hotspot conversion module, and if the hotspot control module closes the wireless network hotspot function, the network hotspot conversion module is prohibited from generating a wireless network hotspot corresponding to the mobile network signal.

For a detailed description of the signal processing method, reference is made to the embodiments of the apparatus, which are not described in detail herein.

The embodiment of the application also provides a storage medium, wherein the storage medium stores computer program codes, and the signal processing method is realized when the computer program codes run.

It should be noted that, in the present specification, the embodiments are described in a progressive manner, features of each embodiment may be combined with or replaced with each other, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other. For the method class embodiment, since it is basically similar to the apparatus embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the apparatus embodiment.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

The foregoing is only a preferred embodiment of the present application and it should be noted that those skilled in the art can make several improvements and modifications without departing from the principle of the present application, and these improvements and modifications should also be considered as the protection scope of the present application.

Claims (10)

1. An electronic device, the electronic device comprising: the system comprises a routing module, a mobile network module and a multi-port forwarding module;

the routing module is detachably arranged in the electronic equipment so that the routing module can be integrated in the electronic equipment;

the mobile network module is positioned on a mainboard of the electronic equipment and used for accessing a mobile network signal;

the multi-port forwarding module is connected with the mobile network module through a line arranged in the mainboard and a port corresponding to the line, and is used for receiving the mobile network signal, converting the mobile network signal into a first network signal and a second network signal, providing the first network signal for the electronic equipment, and enabling the electronic equipment to access a network through the first network signal;

the routing module is configured to convert the second network signal into a local area network signal, and provide the local area network signal to other electronic devices except the electronic device, where the local area network signal is used to enable the other electronic devices to interact with the electronic device in a network connection state by using network identification information of the local area network signal;

the first network signal obtained based on the mobile network signal is used for assisting the electronic equipment to access the network, and the local network signal obtained based on the mobile network signal is used for assisting other electronic equipment to access the network, so that the electronic equipment becomes routing equipment for providing the local network signal.

2. The electronic device of claim 1, the multi-port forwarding module configured to receive a bandwidth network signal, convert the bandwidth network signal into a third network signal and a fourth network signal, provide the third network signal to the electronic device, and enable the electronic device to access a network through the third network signal;

the routing module is further configured to convert the fourth network signal into a local area network signal.

3. The electronic device of claim 2, wherein the multi-port forwarding module selects one of the mobile network signal and the bandwidth network signal for conversion if the multi-port forwarding module receives the mobile network signal and receives the bandwidth network signal;

the multi-port forwarding module is further configured to select another network signal of the mobile network signal and the bandwidth network signal for conversion in response to a signal switching instruction.

4. The electronic device of claim 2, the multi-port forwarding module integrated in the routing module, and the routing module having a first network port; a second network port is arranged on a mainboard of the electronic equipment;

the electronic device receiving the bandwidth network signal through any one of the first network port and the second network port; if the electronic device receives the bandwidth network signal through the second network port, a multi-port forwarding module integrated in the routing module receives the broadband network signal received by the second network port through a line arranged in the mainboard and a port corresponding to the line;

and the multi-port forwarding module acquires the mobile network signal accessed by the mobile network module through a line arranged in the mainboard and a port corresponding to the line.

5. The electronic device of claim 2, the multi-port forwarding module being located in the motherboard, the multi-port forwarding module being connected to the routing module by a line provided in the motherboard and a port corresponding to the line.

6. The electronic device of any of claims 1-5, the routing module comprising: a conversion unit and a local area network unit;

the conversion unit is used for converting the second network signal into a local area network signal;

the local area network unit is used for providing the local area network signal for other electronic equipment except the electronic equipment.

7. The electronic device of any of claims 1-5, further comprising: and the network hotspot conversion module is used for generating a wireless network hotspot corresponding to the mobile network signal, and the wireless network hotspot is a wireless network signal provided for the other electronic equipment.

8. The electronic device of claim 7, wherein if the routing module is installed in the electronic device, the electronic device provides the local area network signal through the routing module; and if the routing module is detached from the electronic equipment, the electronic equipment provides the wireless network signal through the network hotspot conversion module.

9. The electronic device of claim 7, further comprising: the hot spot control module is used for starting or closing a wireless network hot spot function;

the network hotspot conversion module is configured to generate a wireless network hotspot corresponding to the mobile network signal when the hotspot control module enables the wireless network hotspot function, and prohibit generation of the wireless network hotspot corresponding to the mobile network signal when the hotspot control module closes the wireless network hotspot function.

10. A method of signal processing, the method comprising:

accessing a mobile network signal through a mobile network module in the electronic equipment;

receiving the mobile network signal through a multi-port forwarding module in the electronic equipment, and converting the mobile network signal into a first network signal and a second network signal, wherein the multi-port forwarding module is connected with the mobile network module through a line arranged in a main board of the electronic equipment and a port corresponding to the line;

providing the first network signal to the electronic device through the multi-port forwarding module;

converting the second network signal into a local area network signal through a routing module in the electronic device, and providing the local area network signal to other electronic devices except the electronic device, wherein the local area network signal is used for enabling the other electronic devices to interact with the electronic device in a network connection state by using network identification information of the local area network signal, and the routing module is detachably arranged in the electronic device so as to enable the routing module to be integrated in the electronic device;

the first network signal obtained based on the mobile network signal is used for assisting the electronic equipment to access the network, and the local network signal obtained based on the mobile network signal is used for assisting other electronic equipment to access the network, so that the electronic equipment becomes routing equipment for providing the local network signal.

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