CN116319544B - Router - Google Patents

Abstract

The application relates to the technical field of communication and provides a router, wherein the router comprises a communication card assembly, and the communication card assembly is used for realizing communication connection between the router and a signal transmitting device; the connection component is electrically connected with the communication card component and is used for realizing communication connection between the router and the mobile equipment; the control assembly is electrically connected with the communication card assembly and the connecting assembly; wherein the communication card assembly comprises: the satellite card reader is electrically connected with the connecting component and the control component respectively; and the communication card reader is electrically connected with the connecting component and the control component respectively.

Description

Router

Technical Field

The application relates to the technical field of communication, in particular to a router.

Background

Currently, a router commonly used is to access the internet through a fixed network provided by a mobile communication carrier, and thus, the router can be used only in a scenario where the mobile communication carrier can provide the fixed network. In the marine transportation scenario, however, the mobile communication carrier cannot provide a stable fixed network, and thus the router cannot be used in marine transportation.

Disclosure of Invention

The application aims to at least solve the problem that the router in the prior art or related art cannot be used in marine transportation.

To this end, the application aims to propose a router.

In view of this, according to an object of the present application, there is provided a router including: the communication card assembly is used for realizing communication connection between the router and the signal transmitting device; the connection component is electrically connected with the communication card component and is used for realizing communication connection between the router and the mobile equipment; the control assembly is electrically connected with the communication card assembly and the connecting assembly; wherein the communication card assembly comprises: the satellite card reader is electrically connected with the connecting component and the control component respectively; and the communication card reader is electrically connected with the connecting component and the control component respectively.

The router provided by the application specifically comprises: a communication card assembly, a connection assembly and a control assembly. The control assembly is electrically connected with the communication card assembly and the connecting assembly respectively, and the connecting assembly is electrically connected with the communication card assembly. The communication card assembly can realize communication connection between the router and the signal transmitting device, the connecting assembly can realize communication connection between the router and the mobile device, and the mobile device can be indirectly in communication connection with the signal transmitting device through electric connection between the communication card assembly and the connecting assembly, so that the mobile device has communication signals, and internet surfing, calling and other operations can be performed. The communication card assembly comprises a satellite card reader and a communication card reader. The satellite card reader is electrically connected with the control component and the connecting component respectively. The satellite card reader can read data of the satellite telephone card, so that the router is in communication connection with the satellite, and mobile equipment in communication connection with the router can perform satellite communication. The communication card reader is electrically connected with the control component and the connecting component respectively. The communication card reader can read data of the telephone card, so that the router is in communication connection with a signal transmitting device of mobile communication, and mobile equipment in communication connection with the router can perform mobile communication. The router provided by the application can provide mobile communication service and satellite communication service by arranging the communication card assembly and the communication card assembly comprises the satellite card reader and the communication card reader, and the mobile equipment can perform mobile communication and satellite communication after being connected with the router. The router provided by the application can provide mobile communication service and satellite communication service, so that the router can be used in the condition of poor network signals, namely in a marine transportation scene.

In addition, the router provided by the technical scheme of the application has the following additional technical characteristics:

in the above technical solution, the router further includes: and the alarm assembly is electrically connected with the control assembly and is used for sending out an alarm signal.

In the technical scheme, the router further comprises an alarm assembly, the alarm assembly is electrically connected with the control assembly, and when a user encounters a danger, the alarm assembly can send an alarm signal to a nearby ship or a shore station, so that the nearby ship or the shore station can provide rescue for the user, and the safety of the user is ensured.

In any of the foregoing solutions, the router further includes: the interaction assembly is electrically connected with the control assembly; the interactive component comprises: and the display component is used for displaying the time and the current state of the router.

In this technical solution, the router further comprises an interaction component. The interaction assembly and the control assembly are electrically connected, the interaction assembly can realize information interaction between a user and the router, the user can input a control instruction to the control assembly through the interaction assembly, so that the control of the router is realized, and after the control instruction is executed by the router, the execution result can be fed back to the user through the interaction assembly, so that the satisfaction degree of the user is improved. Further, the interaction component includes a display component for displaying the time and the current state of the router to the user, in particular, the displayed time may be universal time (Universal Time Coordinated, UTC), such as exemplary: 2022-01-12 00:00 (UTC+1). The current state of the router may be: the ready state indicates that the router can be normally used at present; the state of insufficient electric quantity indicates that the current electric quantity of the router is lower than a preset value, so that a user is reminded of charging the router; the current network type, which may include a satellite service and a mobile communication service, for displaying to a user whether the current router performs satellite communication or mobile communication; the alarm state indicates that the alarm signal sent by the user before is sent to other signal receiving ends, so that the user is safe to wait for rescue, and the satisfaction degree of the user is improved.

In any of the above solutions, the interaction component further includes: and the alarm operation module is electrically connected with the control assembly and is used for controlling the alarm assembly to send out an alarm or release the alarm.

In the technical scheme, the interaction assembly can comprise an alarm operation module, the alarm operation module is electrically connected with the control assembly, a user can enable the alarm assembly to send out an alarm by triggering the alarm operation module, and the alarm assembly can be enabled to release the alarm without sending out the alarm any more by triggering the alarm operation module. Further, the alarm operation module also has the alarm type selection, such as armed conflict, ship fault and the like. The alarm component can send out an alarm according to the selected alarm type, alarm time and ship position information, and after other signal receiving ends receive the alarm, the problem encountered by the user can be analyzed according to the alarm, and the position of the user is determined, so that different rescue schemes are formulated for rescuing the user, and the satisfaction degree of the user is further improved.

In any of the above solutions, the interaction component further includes: the network setting module is electrically connected with the control component and is used for setting a communication connection mode between the router and the signal transmitting device; the connection setting module is electrically connected with the control assembly and is used for setting a communication connection mode between the router and the mobile equipment.

In this technical scheme, the interactive subassembly still includes: the network setting module and the connection setting module. The network setting module is electrically connected with the control component, and a user can set communication connection between the router and the signal transmitting device through the network setting module, for example, mobile communication is only used, that is, the router only performs mobile communication and does not perform satellite communication; only satellite communication is used, that is, the router only performs satellite communication and does not perform mobile communication; the automatic switching, that is, the router can switch between mobile communication and satellite communication, automatically select mobile communication without using satellite communication when the mobile data condition is good, and automatically select satellite communication without using mobile communication when the mobile data condition is bad. The network setting module meets the use situation of the user and improves the use experience of the user. The connection setting module is electrically connected with the control component, and a user can set a communication connection mode between the router and the mobile device through the connection setting module, for example, the router and the mobile device can be connected through Bluetooth or the router and the mobile device can be connected through a wireless communication technology (Wireless Fidelity, wiFi), so that various use requirements of the user are met.

In any of the foregoing solutions, the router further includes: and the positioning assembly is electrically connected with the control assembly, the communication card assembly and the connecting assembly.

In the technical scheme, the router further comprises a positioning component, the positioning component is electrically connected with the control component, and the positioning component can be used for acquiring the position information of the current user. Further, the positioning assembly may be electrically connected to the communication card assembly, thereby enabling the router to be communicatively connected to the signal transmitting device according to the current location information. The positioning component can be electrically connected with the connecting component, so that the distance between the mobile device and the router can be detected, and when the distance between the mobile device and the router is smaller than or equal to a preset distance, the mobile device can be in communication connection with the router; and when the distance between the mobile equipment and the router is larger than the preset distance, disconnecting the communication connection between the mobile equipment and the router.

In any of the above solutions, the positioning assembly includes: the global positioning system positioning module is electrically connected with the control component and the communication card component; the Beidou satellite navigation system positioning module is electrically connected with the control assembly and the communication card assembly; and the active antenna is electrically connected with the communication card assembly and the connecting assembly respectively.

In this technical scheme, the locating component includes: global positioning system positioning module, big dipper satellite navigation system positioning module and active antenna. The global positioning system positioning module can acquire the position information of the router through the global positioning system, and further, the global positioning system positioning module can be electrically connected with the communication card assembly, so that the communication card assembly can be in communication connection with a signal transmitting device which is closer to the router according to the position information of the router, and the strength of signals acquired by the communication card assembly is improved. The Beidou satellite navigation system positioning module is electrically connected with the control assembly, the Beidou satellite navigation system positioning module can acquire position information of the router through the Beidou satellite navigation system, and further, the Beidou satellite navigation system positioning module can be electrically connected with the communication card assembly, so that the communication card assembly can be in communication connection with a signal transmitting device which is closer to the router according to the position information of the router, and the strength of signals acquired by the communication card assembly is further improved. According to the application, the Beidou satellite navigation system positioning module and the global positioning system positioning module are arranged to form a double positioning module, so that stable acquisition of router positioning information is ensured. The active antenna is electrically connected with the communication card assembly and the connecting assembly respectively, so that the strength of bidirectional transmission of signals between the signal transmitting device and the mobile equipment is enhanced in a physical mode. Furthermore, the positioning component provided by the application also supports reading latitude and longitude information and altitude information, and the positioning precision is not less than 2.5 meters. The positioning component can also automatically read and display UTC time, thereby ensuring the accuracy of positioning information.

In any of the above solutions, the connection assembly includes: and the wireless connection module is electrically connected with the communication card assembly and the control assembly and is used for realizing wireless communication connection between the router and the mobile equipment.

In this technical scheme, the coupling assembling can include wireless connection module, and wireless connection module is connected with communication card subassembly and control assembly electricity respectively. The wireless connection module may enable a wireless communication connection between the router and the mobile device. Specifically, the wireless connection module may be divided into a bluetooth module and a WiFi module. The Bluetooth module is electrically connected with the communication card component and the control component respectively. The router and the mobile equipment can be in communication connection in a Bluetooth mode through the Bluetooth module; the WiFi module is electrically connected with the communication card assembly and the control assembly respectively. The router and the mobile device can be in communication connection in a WiFi mode through the WiFi module, and the WiFi module can at least stably support 6 mobile devices to be in communication connection with the router at the same time.

In any of the foregoing solutions, the router further includes: and the power supply assembly is electrically connected with the connecting assembly, the communication card assembly and the control assembly respectively.

In this technical solution, the router may further comprise a power supply component. The power supply assembly is electrically connected with the connecting assembly, the communication card assembly and the control assembly, so that the power supply assembly can provide power for each assembly in the router and maintain the work of each assembly.

In any of the above solutions, the power supply assembly includes: the interface module is respectively and electrically connected with the connecting component, the communication card component and the control component, and is used for being electrically connected with an external power supply; the battery module is respectively and electrically connected with the connecting component, the communication card component and the control component; and the solar module is electrically connected with the battery module and is used for converting solar energy into electric energy and storing the electric energy in the battery module.

In this technical solution, the power supply assembly may include: interface module, battery module and solar module. The interface module may be a universal serial bus (Universal Serial Bus, USB) module. The interface module is respectively and electrically connected with the connecting component, the communication card component and the control component, and further, the interface module is also electrically connected with an external power supply, so that the electric quantity supply to the router through the external power supply is realized, and the normal work of the router is ensured. The battery module is respectively and electrically connected with the connecting assembly, the communication card assembly and the control assembly, and can supply electric quantity for the router when no external power supply supplies electric quantity for the router, so that normal operation of each assembly inside the router is ensured, and the battery module can be a lithium battery and can be charged through USB and solar energy. The solar module is electrically connected with the battery module and is used for converting solar energy into electric energy and sending the electric energy into the battery module for storage, so that the electric quantity in the battery module is ensured to be sufficient.

Further, the control component can be a micro control unit (Microcontroller Unit; MCU) processor component, and the control component is set to be an MCU processor, so that the router can be matched with other software and hardware systems, and the expansibility of the router is improved.

Additional aspects and advantages of the application will be set forth in part in the description which follows, or may be learned by practice of the application.

Drawings

The foregoing and/or additional aspects and advantages of the application will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 shows a block diagram of a router according to one embodiment of the application;

FIG. 2 illustrates an information flow diagram according to one embodiment of the application.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will be more clearly understood, a more particular description of the application will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, without conflict, the embodiments of the present application and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced otherwise than as described herein, and therefore the scope of the present application is not limited to the specific embodiments disclosed below.

FIG. 1 shows a block diagram of a router according to one embodiment of the application; as shown in fig. 1, the router 10 includes: a communication card assembly 102, the communication card assembly 102 being configured to enable a communication connection between the router 10 and a signal transmitting device; a connection assembly 104 electrically connected to the communication card assembly 102, the connection assembly 104 being configured to enable a communication connection between the router 10 and the mobile device; a control assembly 106 electrically connected to the communication card assembly 102 and the connection assembly 104; wherein the communication card assembly 102 comprises: a satellite card reader 1022, the satellite card reader 1022 being electrically connected to the connection component 104 and the control component 106, respectively; the communication card reader 1024, the communication card reader 1024 is electrically connected to the connection assembly 104 and the control assembly 106, respectively.

The router 10 provided by the application specifically comprises: communication card assembly 102, connection assembly 104, and control assembly 106. The control component 106 is electrically connected to the communication card component 102 and the connection component 104, and the connection component 104 is electrically connected to the communication card component 102. The communication card assembly 102 can realize communication connection between the router 10 and the signal transmitting device, the connection assembly 104 can realize communication connection between the router 10 and the mobile device, and the mobile device can indirectly carry out communication connection with the signal transmitting device through electric connection between the communication card assembly 102 and the connection assembly 104, so that the mobile device has communication signals, and internet surfing, calling and other operations can be carried out. The communication card assembly 102 may include, among other things, a satellite card reader 1022 and a communication card reader 1024. The satellite card reader 1022 is electrically connected to the control component 106 and the connection component 104, respectively. Satellite card reader 1022 may perform data reading on a satellite phone card to enable a communication connection between router 10 and a satellite, and to enable satellite communication by a mobile device communicatively coupled to router 10. The communication card reader 1024 is electrically coupled to the control assembly 106 and the connection assembly 104, respectively. The communication card reader 1024 can read data from a phone card so that the router 10 is communicatively connected to a signal transmitting device for mobile communication, and so that a mobile device communicatively connected to the router 10 can perform mobile communication. The router 10 provided by the application can provide mobile communication service and satellite communication service by arranging the communication card assembly 102 and the communication card assembly 102 comprises the satellite card reader 1022 and the communication card reader 1024, so that the router 10 can provide mobile communication service and satellite communication service by connecting the mobile equipment with the router 10, and the router 10 provided by the application can provide mobile communication service and satellite communication service, so that the router 10 can be used in the condition of poor network signal, namely in the marine transportation scene.

Further, the router 10 further includes: and the alarm assembly 108 is electrically connected with the control assembly 106, and the alarm assembly 108 is used for sending out an alarm signal.

In this embodiment, the router 10 further includes an alarm assembly 108, where the alarm assembly 108 is electrically connected to the control assembly 106, and a user can send an alarm signal to a nearby ship or shore station through the alarm assembly 108 when encountering a hazard, thereby ensuring the safety of the user.

Further, the router 10 further includes: an interaction component 110 electrically connected with the control component 106; the interaction component 110 includes: a display component 1102 for displaying the time and the current state of the router 10.

In this embodiment, router 10 also includes an interaction component 110. The interaction component 110 is electrically connected with the control component 106, the interaction component 110 can realize information interaction between a user and the router 10, the user can input a control instruction to the control component 106 through the interaction component 110, so that the router 10 is controlled, and after the control instruction is executed, the router 10 can feed back an execution result to the user through the interaction component 110, so that the satisfaction degree of the user is improved. Further, the interaction component 110 includes a display component 1102, where the display component 1102 is configured to display the time and the current state of the router 10 to a user, and in particular, the displayed time may be universal time (Universal Time Coordinated, UTC), such as: 2022-01-12 00:00 (UTC+1). The current state of the router 10 may be: ready state, indicating that router 10 is currently in normal use; the low power state indicates that the current power of the router 10 is lower than a preset value, thereby reminding a user to charge the router 10; the current network type, which may include a satellite communication service and a mobile communication service, for displaying to a user whether the current router 10 performs satellite communication or mobile communication; the alarm state indicates that the alarm signal sent by the user before is sent to other signal receiving ends, so that the user is safe to wait for rescue, and the satisfaction degree of the user is improved.

Further, the interaction component 110 includes: the alarm operation module 1104 is electrically connected with the control component 106, and the alarm operation module 1104 is used for controlling the alarm component 108 to send out an alarm or release the alarm.

In this embodiment, the interaction component 110 may include an alarm operation module 1104, where the alarm operation module 1104 is electrically connected to the control component 106, and the user may cause the alarm component 108 to issue an alarm by triggering the alarm operation module 1104, and may cause the alarm component 108 to release the alarm by triggering the alarm operation module 1104. Further, in the alarm operation module 1104, there is also a choice of alarm type, such as armed conflict, ship failure, etc. The alarm component 108 can send out an alarm according to the selected alarm type, alarm time and ship position information, and after other signal receiving ends receive the alarm, the problem encountered by the user can be analyzed according to the alarm, and the position of the user is determined, so that different rescue schemes are formulated for rescuing the user, and the satisfaction degree of the user is further improved.

Further, the interaction component 110 further includes: the network setting module 1106 is electrically connected to the control component 106, and the network setting module 1106 is used for setting a communication connection mode between the router 10 and the signal transmitting device; the connection setting module 1108 is electrically connected to the control component 106, and the connection setting module 1108 is configured to set a communication connection manner between the router 10 and the mobile device.

In this embodiment, the interaction component 110 further comprises: a network setup module 1106 and a connection setup module 1108. The network setting module 1106 is electrically connected with the control component 106, and a user can set a communication connection between the router 10 and the signal transmitting device through the network setting module 1106, such as mobile communication only, that is, the router 10 performs mobile communication only and does not perform satellite communication; only satellite communication, that is, the router 10 performs only satellite communication and does not perform mobile communication; the automatic switching, that is, the router 10 can switch between mobile communication and satellite communication, automatically select mobile communication without using satellite communication when the mobile data condition is good, and automatically select satellite communication without using mobile communication when the mobile data condition is bad. The network setting module 1106 meets the use situation of the user and improves the use experience of the user. The connection setting module 1108 is electrically connected with the control component 106, and a user can set a communication connection mode between the router 10 and the mobile device through the connection setting module 1108, for example, the router 10 and the mobile device can be connected through bluetooth or the router 10 and the mobile device can be connected through a wireless communication technology (Wireless Fidelity, wiFi), so that various use requirements of the user are met.

Further, the router 10 further includes: the positioning assembly 112 is electrically connected to the control assembly 106, the communication card assembly 102, and the connection assembly 104.

In this embodiment, the router 10 further includes a positioning component 112, where the positioning component 112 is electrically connected to the control component 106, and the positioning component 112 can be used to obtain the location information of the current user. Further, the positioning assembly 112 may be electrically connected to the communication card assembly 102 to enable the router 10 to be communicatively connected to the signal emitting device based on current location information. The positioning component 112 can be electrically connected with the connection component 104, can detect the distance between the mobile device connected with the router 10, and can be in communication connection with the router 10 when the distance between the mobile device and the router 10 is less than or equal to a preset distance; when the distance between the mobile device and the router 10 is greater than the preset distance, the communication connection between the mobile device and the router 10 is disconnected.

Further, the positioning assembly 112 includes: a global positioning system location module 1122 electrically coupled to the control assembly 106 and the communication card assembly 102; the Beidou satellite navigation system positioning module 1124 is electrically connected with the control assembly 106 and the communication card assembly 102; the active antenna 1126 is electrically connected to the communication card assembly 102 and the connection assembly 104, respectively.

In this embodiment, the positioning assembly 112 includes: global positioning system location module 1122, beidou satellite navigation system location module 1124, and active antenna 1126. The global positioning system positioning module 1122 is electrically connected to the control component 106, and the global positioning system positioning module 1122 can obtain the position information of the router 10 through the global positioning system, and further, the global positioning system positioning module 1122 can be electrically connected to the communication card component 102, so that the communication card component 102 can be in communication connection with a signal transmitting device close to the router 10 according to the position information of the router 10, thereby improving the strength of the signal obtained by the communication card component 102. The Beidou satellite navigation system positioning module 1124 is electrically connected with the control assembly 106, and the Beidou satellite navigation system positioning module 1124 can acquire the position information of the router 10 through the Beidou satellite navigation system, and further, the Beidou satellite navigation system positioning module 1124 can be electrically connected with the communication card assembly 102, so that the communication card assembly 102 can be in communication connection with a signal transmitting device which is closer to the router 10 according to the position information of the router 10, and the strength of signals acquired by the communication card assembly 102 is further improved. In the application, the Beidou satellite navigation system positioning module 1124 and the global positioning system positioning module 1122 are arranged to form a double positioning module, so that stable acquisition of the positioning information of the router 10 is ensured. The active antenna 1126 is electrically connected to the communication card assembly 102 and the connection assembly 104, respectively, to physically enhance the strength of the bi-directional transmission of signals between the signal transmitting device and the mobile device. Further, the positioning component 112 provided by the application also supports reading latitude and longitude information and altitude information, and the positioning accuracy is not less than 2.5 meters. The positioning component 112 can also automatically read and display UTC time, thereby ensuring accuracy of positioning information.

Further, the connection assembly 104 includes: and the wireless connection module is electrically connected with the communication card assembly 102 and the control assembly 106 and is used for realizing wireless communication connection between the router 10 and the mobile device.

In this embodiment, the connection assembly 104 may include a wireless connection module 1042, the wireless connection module 1042 being electrically connected to the communication card assembly 102 and the control assembly 106, respectively. The wireless connection module 1042 may enable a wireless communication connection between the router 10 and a mobile device. Specifically, the wireless connection module is divided into a bluetooth module and a WiFi module. The bluetooth module is electrically connected to the communication card assembly 102 and the control assembly 106, respectively. The router 10 and the mobile device can be in communication connection in a Bluetooth mode through the Bluetooth module; the WiFi module is electrically connected to the communication card assembly 102 and the control assembly 106, respectively. The router 10 and the mobile device can be in communication connection in a WiFi manner through the WiFi module, wherein the WiFi module can at least stably support 6 mobile devices to be in communication connection with the router 10 at the same time.

Further, the router 10 further includes: the power supply assembly 114, the power supply assembly 114 is electrically connected with the connection assembly 104, the communication card assembly 102 and the control assembly 106, respectively.

In this embodiment, router 10 may also include a power supply component 114. The power supply assembly 114 is electrically connected to the connection assembly 104, the communication card assembly 102 and the control assembly 106, and further, the power supply assembly 114 may be electrically connected to the positioning assembly 112, the alarm assembly 108 and the interaction assembly 110, so that the power supply assembly 114 can provide power to each assembly inside the router 10 to maintain the operation of each assembly.

Further, the power supply assembly 114 includes: an interface module 1142 electrically connected to the connection assembly 104, the communication card assembly 102, and the control assembly 106, respectively, the interface module 1142 being configured to electrically connect to an external power source; a battery module 1144 electrically connected to the connection assembly 104, the communication card assembly 102, and the control assembly 106, respectively; the solar module 1146 is electrically connected to the battery module 1144, and the solar module 1146 is configured to convert solar energy into electrical energy and store the electrical energy in the battery module 1144.

In this aspect, the power supply assembly 114 may include: an interface module 1142, a battery module 1144, and a solar module 1146. The interface module 1142 may be a universal serial bus (Universal Serial Bus, USB) module. The interface module 1142 is electrically connected to the connection component 104, the communication card component 102 and the control component 106, and further, the interface module 1142 may be electrically connected to the positioning component 112, the alarm component 108 and the interaction component 110, and further, the interface module 1142 is electrically connected to an external power source, so as to provide power supply to the router 10 through the external power source, thereby ensuring normal operation of the router 10. The battery module 1144 is electrically connected to the connection assembly 104, the communication card assembly 102, and the control assembly 106, respectively, and further, the battery module 1144 may be electrically connected to the positioning assembly 112, the alarm assembly 108, and the interaction assembly 110. The battery module 1144 may provide power supply to the router 10 when no external power source provides power supply to the router 10, so as to ensure normal operation of various components inside the router 10, and the battery module 1144 may be a lithium battery, which may be charged by USB and solar energy. The solar module 1146 is electrically connected to the battery module 1144, and the solar module 1146 is configured to convert solar energy into electrical energy and send the electrical energy to the battery module 1144 for storage, thereby ensuring sufficient power in the battery module 1144.

Further, the control component 106 may be a micro control unit (Microcontroller Unit; MCU) processor component, and the control component 106 is set to be an MCU processor, so that the router 10 may be matched with other software and hardware systems, thereby improving the expansibility of the router 10.

FIG. 2 illustrates an information flow diagram according to one embodiment of the application. As shown in fig. 2, the satellite communication and the mobile communication are communicatively connected to the router 10 through a network configuration, specifically, the network configuration may be: only mobile communication, the router 10 performs mobile communication; if only satellite communication is performed, the router 10 performs satellite communication; if both mobile communication and satellite communication are available, a priority may be set, and if the priority of mobile communication is greater than that of satellite communication, the router 10 prioritizes mobile communication in the case where both are available. Further, the router 10 is in communication connection with the mobile device, specifically, a connection mode needs to be selected first, the mobile device and the router 10 can be connected in a bluetooth mode or a WiFi mode, and after the communication connection with the mobile device is completed, a complete information circulation flow is formed. The circulation flow is as follows: according to the network setting, the information is transmitted to the router 10 according to the satellite communication or the mobile communication mode, and the router 10 transmits the information to the mobile device through Bluetooth or WiFi according to the selection of the connection mode, so that the mobile device can perform the mobile communication or the satellite communication.

In the description of the present application, it should be understood that the terms "upper", "lower", "front", "rear", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the positional relationships shown in the drawings, are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

In the description of the present specification, the terms "connected," "mounted," "secured," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present specification, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present application, and is not intended to limit the present application, but various modifications and variations can be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (8)

1. A router, the router comprising:

the communication card assembly is used for realizing communication connection between the router and the signal transmitting device;

the connection component is electrically connected with the communication card component and is used for realizing communication connection between the router and the mobile equipment;

the control assembly is electrically connected with the communication card assembly and the connection assembly;

wherein the communication card assembly comprises:

the satellite card reader is electrically connected with the connecting component and the control component respectively;

the communication card reader is electrically connected with the connecting component and the control component respectively;

the router further comprises:

the alarm assembly is electrically connected with the control assembly and is used for sending out an alarm signal;

when a user encounters a danger, the alarm assembly sends the alarm signal to a nearby ship or a shore station;

the router further comprises:

the interaction assembly is electrically connected with the control assembly;

the interaction component comprises:

the alarm operation module is electrically connected with the control assembly and is used for controlling the alarm assembly to send out an alarm or release the alarm;

the alarm operation module is also provided with alarm type selection, including armed conflict and ship fault; the alarm component sends out an alarm according to the selected alarm type, alarm time and ship position information, and after other signal receiving ends receive the alarm, the problem encountered by the user is analyzed according to the alarm, and the position of the user is determined, so that different rescue schemes are formulated for rescuing the user;

the interaction component further comprises:

the network setting module is electrically connected with the control component and is used for setting a communication connection mode between the router and the signal transmitting device;

setting communication connection between the router and the signal transmitting device through the network setting module, including using only mobile communication; only satellite communication is used; the automatic switching, i.e. the router switches between the mobile communication and the satellite communication, automatically selects the mobile communication without using the satellite communication when the mobile data situation is good, and automatically selects the satellite communication without using the mobile communication when the mobile data situation is bad.

2. The router of claim 1, wherein the router is configured to,

the interaction component further comprises:

and the display component is used for displaying the time and the current state of the router.

3. The router of claim 1, wherein the interaction component further comprises:

the connection setting module is electrically connected with the control component and is used for setting a communication connection mode between the router and the mobile equipment.

4. A router according to any one of claims 1 to 3, characterized in that the router further comprises:

and the positioning assembly is electrically connected with the control assembly, the communication card assembly and the connecting assembly.

5. The router of claim 4, wherein the positioning component comprises:

the global positioning system positioning module is electrically connected with the control assembly and the communication card assembly;

the Beidou satellite navigation system positioning module is electrically connected with the control assembly and the communication card assembly;

and the active antenna is electrically connected with the communication card assembly and the connection assembly.

6. A router according to any one of claims 1 to 3, wherein the connection assembly comprises:

and the wireless connection module is electrically connected with the communication card assembly and the control assembly and is used for realizing wireless communication connection between the router and the mobile equipment.

7. A router according to any one of claims 1 to 3, characterized in that the router further comprises:

and the power supply component is electrically connected with the connecting component, the communication card component and the control component respectively.

8. The router of claim 7, wherein the power supply assembly comprises:

the interface module is respectively and electrically connected with the connecting component, the communication card component and the control component, and is used for being electrically connected with an external power supply;

the battery module is respectively and electrically connected with the connecting component, the communication card component and the control component;

and the solar module is electrically connected with the battery module and is used for converting solar energy into electric energy and storing the electric energy in the battery module.