CN105227472A - A kind of wireless router device and wireless communication system - Google Patents

Abstract

The present invention discloses a kind of wireless router device and wireless communication system, wireless router device comprises housing, core cell, power supply unit and at least one antenna, housing is hollow structure, core cell, power supply unit is accommodated in housing: one end of at least one antenna is connected with core cell, the other end is in working order outside downward-extension to housing: core cell is also connected with power supply unit, for receiving the network signal of service end and it being gone out by described at least one aerial radiation, and being transferred to service end after receiving external wireless signals by described at least one antenna: power supply unit is for powering to core cell: housing is provided with the first installation unit, for housing is installed on predeterminated position.The present invention, by above technical scheme, expands the network coverage of service end, achieves the deployment of wireless network.

Description

Wireless routing device and wireless communication system

Technical Field

The present invention relates to the field of wireless communications, and in particular, to a wireless routing device and a wireless communication system.

Background

The wireless network is a technology suitable for regional deployment, taking the WIFI wireless network as an example, a single WIFI access-level device can cover a barrier-free region of 1000 square meters, and in a complicated terrain region, a plurality of WIFI devices can jointly achieve the purpose. The WIFI network deployment is low in cost, low in WIFI network failure rate and good in compatibility, and in addition, the communication quality can be improved by using a plurality of devices, so that the use of WIFI in communication in one region is a better choice.

Disclosure of Invention

The invention provides a wireless routing device and a wireless communication system, which solve the problem of wireless network deployment.

In order to solve the technical problems, the invention adopts the following technical scheme:

a wireless routing device comprises a shell, a core unit, a power supply unit and at least one antenna: the shell is of a hollow structure: the core unit and the power supply unit are contained in the shell: one end of the at least one antenna is connected with the core unit, and the other end extends out of the shell under the working state: the core unit is further connected with the power supply unit and used for receiving network signals of the server and radiating the network signals out through the at least one antenna, and transmitting the network signals to the server after receiving external wireless signals through the at least one antenna: the power supply unit is used for supplying power to the core unit: the shell is provided with a first mounting unit used for mounting the shell at a preset position.

Preferably, the housing comprises a front end and a rear end: the other end of the at least one antenna extends beyond the front end in an operating state: the first mounting unit is disposed on the rear end.

Preferably, the core unit is housed in the front end: the power supply unit is accommodated in the rear end.

Preferably, the power supply unit comprises at least one battery: the battery is a disposable battery or a rechargeable battery: if the power supply unit comprises a rechargeable battery, a charging interface is further arranged on the shell.

Preferably, the first mounting unit is disposed at a center of the rear end, and the at least one battery is disposed around the first mounting unit.

Preferably, the power supply unit includes an even number of batteries, and the even number of batteries are symmetrically disposed around the circumference of the first mounting unit.

Preferably, the wireless routing device further comprises an insulating unit disposed between the core unit and the power supply unit.

Preferably, the first mounting unit includes: one of a threaded connector, a clamping groove, a buckle, a bracket, a steel needle and a magnet.

Preferably, the at least one antenna is of a retractable structure and is accommodated in the housing in a retracted state. Preferably, at least one antenna is further configured to activate the core unit to enter a working state when in the deployed state: and the core unit is also used for closing the core unit in the state that all the antennas are contracted.

Preferably, the shape of the housing is: one of a cylinder, a rectangle, a square and an irregular pattern.

Preferably, the shell is further provided with a prompt module for prompting the working state of the core unit and the residual electric quantity of the power supply unit.

Preferably, the housing is further provided with a second mounting unit for mounting an external function unit.

Preferably, the external function unit includes: one or more of a solar energy-to-electric energy unit, a wind energy-to-electric energy unit, a camera unit, a recording unit, a playback unit, a laser drawing and testing unit and an environment monitoring unit.

Preferably, the solar energy-to-electric energy unit and the wind energy-to-electric energy unit are connected with the power supply unit or the core unit through a charging interface arranged on the shell, and are used for providing electric energy for the power supply unit or the core unit connected with the power supply unit or the core unit.

Preferably, the external function unit has a wireless communication function, and the core unit is further configured to wirelessly communicate with the external function unit and/or supply power to the external function unit through the at least one antenna: or the shell is also provided with a wired communication interface, and the core unit is also used for carrying out wired communication with the external function unit through the wired communication interface and/or supplying power to the external function unit.

Preferably, the second mounting unit includes: one of screw thread interface, draw-in groove, buckle, support, magnet, base.

A wireless communication system, comprising a server and the wireless routing device of any one of the above, wherein the server is configured to perform network communication with the wireless routing device: the wireless router is used for receiving the network signal of the server and radiating the network signal out through at least one antenna, and transmitting the network signal to the server after receiving an external wireless signal through the at least one antenna.

Preferably, the server is configured to convert a mobile data network and a wired internet into a wireless network, and then communicate with the wireless routing device through the wireless network.

Preferably, the wireless communication system further includes at least one relay device disposed between the server and the wireless routing device.

Preferably, the server includes: one of a mobile phone, a PAD, a PC and a notebook computer.

The invention provides a wireless router and a wireless communication system, wherein a core unit in the wireless router is used for receiving a network signal of a service end, radiating the network signal out through at least one antenna extending out of a shell, receiving an external wireless signal through the at least one antenna and then transmitting the external wireless signal to the service end, and a first mounting unit on the shell can also mount the whole wireless router at a preset position.

Drawings

Fig. 1 is a schematic diagram of a wireless routing device according to an embodiment of the present invention:

fig. 2 is a cross-sectional view of the wireless routing device of fig. 1 taken along the direction a-a:

fig. 3 is a schematic end view of the front end of the housing of the wireless routing device shown in fig. 1.

Detailed Description

The wireless network in the present invention mainly refers to a WIF wireless network, although other types of wireless networks are not excluded. The wireless routing device mainly comprises a shell, a core unit, a power supply unit and at least one antenna, wherein the shell is provided with a first installation unit.

Wherein, the casing is hollow structure. The shape of the housing may be: cylindrical, rectangular, square, irregular, etc. Preferably, the housing is cylindrical, and the cylindrical housing is convenient for the air cannon to shoot the housing to a long distance and then is installed on a long-distance preset position through the first installation unit on the housing.

The core unit is accommodated in the housing. Preferably, the core unit is a circuit board structure, that is, a circuit board and a circuit structure on the circuit board for implementing wireless routing are included. The circuit structure for realizing the wireless routing is specifically used for receiving a network signal of a server and radiating the network signal out through the at least one antenna, and transmitting the network signal to the server after receiving an external wireless signal through the at least one antenna. Because the circuit board is inconvenient to be directly welded with the inner wall of the shell, the core unit can be fixed in the hollow part of the shell by means of the metal connecting frame, for example, the metal connecting frame is firstly installed on the periphery of the circuit board by using screws, and then the metal connecting frame is welded with the inner wall of the shell.

The power supply unit is accommodated in the housing. The power supply unit is connected with the core unit and used for supplying power to the core unit. The power supply unit may include at least one battery, and the battery may be a disposable battery or a rechargeable battery, and if the power supply unit includes a rechargeable battery, the housing is further provided with a charging interface for charging the rechargeable battery.

One end of each antenna in the at least one antenna is connected with the core unit in the shell, the other end extends to the outside of the shell under the working state, and the other end extends to the outside of the shell to be beneficial to receiving and transmitting signals. Preferably, at least one antenna is of a telescopic structure, the other end of the telescopic antenna extends out of the shell in an unfolding state, the other end of the telescopic antenna can be contained in the shell in a contraction state, and the antenna with the structure can be completely contained in the shell in a non-working state to play a protection role. Preferably, the retractable antenna deploys by default without external force. Preferably, in order to control the wireless routing device to be turned on and off without an additional switch, at least one antenna in the unfolded state is further configured to activate the core unit to enter the working state, that is, as long as one antenna is in the unfolded state, the core unit is automatically activated: and the wireless router is also used for closing the core unit in the contraction state of all the antennas, namely if all the antennas are in the contraction state, the core unit is automatically closed, and the opening and closing of the wireless router and the expansion and contraction of the antennas are synchronous by using the mode. Preferably, one wireless routing device comprises two antennas, and for balancing, the two antennas are preferably symmetrically arranged on two sides of the core unit.

The first mounting unit is provided on the housing. The first installation unit is mainly used for installing the shell at a preset position, so that the whole wireless routing device is installed at the preset position. The first mounting unit may be a connection interface for mounting a connector, or a connector itself, including but not limited to: support, steel needle, magnet: the connection interfaces include, but are not limited to, threaded interfaces, slots, snaps for mounting the connectors. Therefore, in some embodiments, the first mounting unit disposed on the housing is a connection interface, and the user needs to first mount a matching connector in the connection interface, and then mount the housing at a preset position by means of the connector: in other embodiments, the first mounting unit disposed on the housing is a connector, and the wireless routing device with such a structure has a connector, so that a user can directly mount the housing at a predetermined position through the connector without an intermediate step. For example, the first installation unit that sets up on the casing is threaded interface, and the user need install steel needle, support, magnet through this threaded interface earlier, installs the back well, with the help of steel needle, support, magnet with the casing install in preset position: if the first mounting unit arranged on the shell is a steel needle, a bracket and a magnet, the shell can be directly mounted at a preset position by using the steel needle, the bracket and the magnet.

In some embodiments, the wireless routing device further comprises an insulating unit, and the insulating unit is arranged between the core unit and the power supply unit and plays a role of interference prevention. The insulating unit may be 2mm thick insulating plastic.

In some embodiments, the shell is further provided with a prompting module for prompting the working state of the core unit and the residual electric quantity of the power supply unit. The prompt module may be: warning light, display screen, loudspeaker. The prompting lamp plays a prompting role through the turning on and off of the lamp, the brightness of the lamp, the luminous color and the like. The display screen plays a role in prompting through displayed characters, graphics, images and the like. The horn plays a role in prompting by emitting a specific sound. Preferably, two LED lamps are provided on the housing, one of which is used for blue light when the core unit is in an operating state, and the other of which emits red light when the remaining capacity is lower than the lower limit value.

In some embodiments, the housing is divided into a front end and a rear end, the other end of the at least one antenna extends out of the front end in an operating state, the first mounting unit is disposed on the rear end, and the manner of separating the extending direction of the antenna from the first mounting unit to set the two ends can ensure that the antenna is unfolded towards the other end when the housing is mounted at the preset position through the first mounting unit on the rear end, and the preset position does not influence the unfolding of the antenna, so as to facilitate signal receiving and transmitting. On this basis, preferably, still accomodate the core unit in the casing front end, accomodate the power supply unit in the casing rear end, core unit and antenna arrange at the casing front end promptly, power supply unit and first installation unit are arranged in the casing rear end, this kind of arrangement is because the power supply unit is heavier, make the casing rear end heavy relative to the front end, the rear end is heavy, the light structure of front end, be convenient for through the first installation unit installation back of rear end, it is more reliable and appropriate fixedly, simultaneously, when using the air cannon to shoot out wireless routing device to long-range installation, can also guarantee the first installation unit of rear end towards long-range preset position.

For the structure that both the power supply unit and the first mounting unit are arranged at the rear end of the housing, it is preferable that the first mounting unit is arranged at the center of the rear end of the housing, and since the power supply unit is heavy, the power supply unit is arranged around the first mounting unit for balance. If the power supply unit comprises at least one battery, these batteries are arranged around the circumference of the first mounting unit. Preferably, the power supply unit includes an even number of batteries which are symmetrically disposed around the circumference of the first mounting unit.

In some embodiments, a second mounting unit is further provided on the housing for mounting an external functional unit. External functional units include, but are not limited to: one or more of a solar energy-to-electric energy unit, a wind energy-to-electric energy unit, a camera unit, a recording unit, a playback unit, a laser drawing and testing unit and an environment monitoring unit. The second mounting unit includes all structures that can be provided on the housing and to which an external function unit can be mounted, including but not limited to: threaded interface, draw-in groove, buckle, support, magnet, base.

The solar energy-to-electric energy unit is mainly used for collecting solar energy and converting the collected solar energy into electric energy, and the wind energy-to-electric energy unit is mainly used for collecting wind energy and converting the collected wind energy into electric energy. Solar energy changes electric energy unit, wind energy and changes the interface that charges that sets up on the casing, and the power supply unit in the casing charges rather than the power supply unit who connects: or the solar energy-to-electric energy unit and the wind energy-to-electric energy unit are connected with the core unit through the charging interface arranged on the shell and used for directly providing electric energy for the core unit.

The camera shooting unit is mainly used for collecting images. The recording unit is mainly used for recording sound signals. The playback unit is used for playing the sound signals. The laser mapping unit is mainly used for mapping the inside and the outside of a building. The environment monitoring unit is mainly used for detecting environmental parameters including but not limited to monitoring environmental temperature, humidity, rainfall, air quality, noise and light pollution. Some external functional units have a wireless communication function, and can communicate with the wireless routing device by using the wireless communication function, or obtain power from the wireless routing device, and specifically, the core unit wirelessly communicates with and/or supplies power to the external functional units through the at least one antenna: for the external function unit without wireless communication function, the shell of the wireless router can be provided with a wired communication interface, and the core unit can perform wired communication with the external function unit and/or supply power to the external function unit through the wired communication interface.

In some embodiments, the wireless routing device is also designed to be wholly or partially waterproof, for example, a rubber cap is provided for an antenna port, a charging port and a wired communication port which are used for passing through the antenna on the casing, waterproof glue is used for sealing inside the ports, and the like. The wireless routing device can be designed into a closed structure, or the end face of the front end of the shell and the end face of the rear end of the shell can be detached, and for the detachable structure, the rubber pad can be arranged at the joint to achieve the waterproof effect.

The present invention also provides a wireless communication system, which includes a server and the wireless router: the server may be: the service end is communicated with the wireless routing device after a wired or wireless network is started. Preferably, the server of the present invention may convert the mobile data network (2G, 3G, 4G) and the wired internet into a wireless network, and wirelessly communicate with the wireless router through the converted wireless network. The existing electronic equipment such as mobile phones, PADs, PCs, notebook computers and the like all have the conversion function, and the wireless network communication between the service end and the wireless routing device can be realized by utilizing the function. No matter the service end is a wired network or a wireless network, the coverage range of the network is limited, after the wireless routing device is utilized, the coverage range of the network can be expanded, and the wireless routing device radiates the wireless network. In addition, in order to further expand the network coverage, at least one relay device may be arranged between the server and the wireless router.

In some embodiments, the wireless communication system includes a mobile phone and a wireless routing device, the mobile phone converts its mobile data network into a WIFI wireless network, and then the wireless routing device expands the coverage of the WIFI wireless network. Electronic equipment with a WIFI communication function in a WIFI wireless network coverage area of the wireless routing device radiated through the antenna can use the WIFI wireless network, can perform data communication with a server through the core unit, and comprises an external function unit arranged on the wireless routing device through the second installation unit. For example, an outdoor user can convert a mobile data network of a mobile phone into a WIFI wireless network, but the coverage of the converted WIFI wireless network is limited, and when the wireless routing device is carried, the wireless routing device can be arranged at a certain distance from the mobile phone but within the coverage of the WIFI network of the mobile phone, so that the coverage of the WIFI wireless network can be expanded through the wireless routing device, and electronic equipment with a WIFI communication function in the coverage of the WIFI wireless network radiated by the wireless routing device can use the WIFI wireless network, so that a shot image can be transmitted to the mobile phone through the WIFI network by using the camera device installed on the wireless routing device through the second installation unit. In order to further expand the network coverage, a relay device may be provided between the handset and the wireless routing device.

As shown in fig. 1 to 3, the illustrated wireless routing device includes, as an embodiment, a housing, a core unit 2, a power supply unit 3, an insulating unit 4, and two retractable antennas (5 and 6): the casing is cylindrical and is hollow structure, and cylindrical casing includes front end 11 and rear end 12: the front end 11 is provided with a second threaded interface 111, a charging interface 112, antenna interfaces (113 and 114), a wired communication interface 115 and a blue-ray LED lamp 116: the rear end 12 is provided with a first screw interface 121 and a red LED lamp 122: wherein,

the core unit 2 is a square circuit board structure, and is accommodated in the central position of the rear half part of the front end 11, and the circuit board can be damaged by direct welding on the circuit board, so that the metal connecting frame 7 is fixedly installed on the periphery of the circuit board through screws, and the metal connecting frame 7 is welded on the inner wall of the front end 11, and the core unit 2 of the circuit board structure is fixed in the front end 11 in such a way:

the second screw interface 111 is an interface having an internal thread, is provided at a central position of the front half of the front end 11, and is recessed into the front end 11 from an end surface of the front end 11: in other embodiments, the second screw interface 111 may also be an interface with external threads, or a slot, a snap, a bracket, a magnet, a base, etc., as long as it can be used to mount an external functional unit:

on the terminal surface of front end 11, and set up antenna mouth (113 and 114) at the bilateral symmetry of second hickey 111, the symmetry sets up charging interface 112, wired communication interface 115 from top to bottom: the shape of the antenna ports (113 and 114) matches the shape of the antennas (5 and 6) for the antennas (5 and 6) to pass through: the charging interface 112 is connected to the power supply unit 3, and is configured to receive external power to charge the power supply unit 3: the wired communication interface 115 is connected to the core unit 2, and is configured to communicate with the core unit 2 or obtain power from the core unit 2:

one end of two antennas (5 and 6) is connected with core unit 2, and the other end is accomodate in front end 11 core unit 2, the left and right sides of second screw thread interface 111 under the shrink state, passes antenna mouth (113 and 114) and extends outside the casing from core unit 2, the left and right sides of second screw thread interface 111 under the expansion state, and two antennas (5 and 6) are acquiescent for the expansion under no external force condition, adopt external force to press and make its shrink when needing its shrink: the antennas (5 and 6) of this embodiment are both in the expanded state, and are further configured to activate the core unit 2 to enter the operating state, and after all the antennas are contracted, are further configured to close the core unit 2 to enter the sleep or power-off state, so that the startup of the wireless routing device is synchronized with the expansion of the antennas, and the shutdown of the wireless routing device is synchronized with the contraction of the antennas, without additionally providing a switch:

blue light LED lamp 116 sets up in the side of front end 11, is connected with core unit 2 for send out blue light under core unit 2 gets into operating condition, after core unit 2 closes, goes into dormancy or power off state promptly and puts out the light:

the first screw interface 121 is an interface with internal threads, is arranged in the center of the rear end 12, and is recessed into the rear end 12 from the end surface of the rear end 12, the first screw interface 121 is mainly used for installing a connecting piece matched with the first screw interface, the connecting piece can be a bracket, a steel needle or a magnet, the matched connecting piece is installed in the first screw interface 121, and then the wireless routing device is installed in a preset position by means of the connecting piece: in other embodiments, the first threaded interface 121 may also be an interface with an external thread, or a card slot, a buckle, a bracket, a steel needle, a magnet, etc., as long as the wireless routing device can be directly or indirectly installed at a preset position:

the power supply unit 3 comprises 8 rechargeable batteries, which are received in the rear end 12 and symmetrically arranged around the circumference of the first threaded interface 121, as shown in fig. 2: in other embodiments, the power supply unit 3 may also include a disposable battery, and the number of batteries is not limited: the symmetrical arrangement around the circumference of the first threaded interface 121 can play a balancing role:

the red LED lamp 122 is disposed on the side of the rear end 12, connected to the power supply unit 3, and configured to emit red light when the remaining power of the power supply unit 3 is lower than the lower limit value, and turn off the lamp when the remaining power is not lower than the lower limit value:

insulating unit 4 sets up between front end 11 and rear end 12, plays the effect of jam-proof, and the wire hole 41 is walked in reservation above insulating unit 4 on the casing inner wall is fixed to accessible welded mode, and power supply unit 3 passes this wire hole 41 with the connecting wire of core unit 2, and power supply unit 3 is used for supplying power for core unit 2: in this embodiment, the insulating unit 4 is an insulating plastic with a thickness of 2 mm:

in this embodiment, when a wireless network needs to be arranged, a connector connected to the first threaded interface 121 is selected according to a preset installation position of the wireless routing device, if the wireless routing device needs to be installed on a flat ground nearby, a tripod can be selected as the connector, a common end of the tripod is installed on the first threaded interface 121, the tripod is placed on the ground, and then the two antennas (5 and 6) are both in an unfolded state to activate the core unit 2, so that the core unit enters a working state: if the wireless routing device needs to be thrown onto a remote soft object, for example, in order to obtain a better network signal outdoors, the wireless routing device is intended to be thrown onto a tree branch which is high above the tree, a steel needle can be used as a connecting piece, the steel needle is installed on the first threaded interface 121, the antennas (5 and 6) are unfolded to activate the core unit 2 to enable the core unit to enter a working state, and an air cannon is used to launch the wireless routing device towards the tree branch, because the rear end 12 of the wireless routing device is heavy and the front end 11 of the wireless routing device is light, the rear end 12 of the wireless routing device can be ensured to fly towards the tree branch in the air, and finally, the steel needle at the rear end 12 is pricked onto the tree branch, and because the rear end 12 of the wireless routing device is heavy and the front end 11 of the wireless routing device is light, the steel needle is not easy to fall down. After the core unit 2 enters the working state, no matter the service end is a wired network or a wireless network, the coverage area of the network is limited, after the wireless routing device is utilized, the coverage area of the network can be expanded, and the wireless routing device radiates the wireless network through two antennas (5 and 6): the electronic equipment with the wireless communication function in the wireless network coverage area radiated by the two antennas (5 and 6) can use the wireless network, can perform data communication with a server through the core unit 2, and comprises an external function unit which is arranged on the wireless routing device through a second threaded interface 111, such as a solar energy-to-electric energy unit, a wind energy-to-electric energy unit, a camera unit, a recording unit, a playback unit, a laser drawing and measuring unit and an environment monitoring unit: if install solar energy and change electric energy unit, wind energy and change electric energy unit, solar energy changes electric energy unit, wind energy and changes electric energy unit and pass through charging interface 112, is connected with power supply unit 3, charges for it: if the external functional units which need to perform data interaction, such as a camera unit, a recording unit, a sound playing unit, a laser drawing and measuring unit and an environment monitoring unit, are installed, for the external functional units with the wireless communication function, the wireless network radiated by the antennas (5 and 6) can be used for performing data interaction, such as wireless communication and/or power supply with the core unit 2 through the antennas (5 and 6): for an external function unit having no wireless communication function, the core unit 2 can perform wired communication therewith and/or supply power thereto through the wired communication interface 115. When the wireless network is not needed, the two antennas (5 and 6) are retracted, and the retraction of the two antennas (5 and 6) automatically triggers the core unit 2 to be turned off. The wireless routing device may be removed from the installation location after the core unit 2 is turned off for the next use.

Taking the external functional unit as an example of a camera unit, as shown in fig. 5, the camera unit 5 includes a T-shaped bracket, a camera 52, a rotary structure 53, a cover 54 and a connecting wire 55, wherein a long side 51 of the T-shaped bracket is installed in the second screw interface 111, the camera 52 is installed on a short side 52 through the rotary structure 53, the camera is further provided with the cover 54 for dust and water prevention, and the connecting wire 55 is connected with the wired communication interface 115 through the short side 52.

As shown in fig. 6, the solar-to-electric energy conversion unit 6 includes a T-shaped bracket, solar panels 61 and 62 symmetrically disposed on the left and right sides, and connection lines 63 and 64, wherein a long side 61 of the T-shaped bracket is mounted in the second screw interface 111, a short side 62 is connected to the solar panels 61 and 62, and the connection lines 63 and 64 are connected to the wired communication interface 115 through the short side 62.

The foregoing is a more detailed description of the present invention that is presented in conjunction with specific embodiments, and the practice of the invention is not to be considered limited to those descriptions. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims (16)

1. A wireless routing device, comprising a housing, a core unit, a power supply unit, and at least one antenna: the shell is of a hollow structure: the core unit and the power supply unit are contained in the shell: one end of the at least one antenna is connected with the core unit, and the other end extends out of the shell under the working state: the core unit is further connected with the power supply unit and used for receiving network signals of the server and radiating the network signals out through the at least one antenna, and transmitting the network signals to the server after receiving external wireless signals through the at least one antenna: the power supply unit is used for supplying power to the core unit: the shell is provided with a first mounting unit used for mounting the shell at a preset position.

2. The wireless routing device of claim 1, wherein the housing comprises a front end and a back end: the other end of the at least one antenna extends beyond the front end in an operating state: the first mounting unit is disposed on the rear end.

3. The wireless routing device of claim 2, wherein the core unit is housed in the front end: the power supply unit is accommodated in the rear end.

4. The wireless routing device of claim 3, wherein the power supply unit comprises at least one battery: the battery is a disposable battery or a rechargeable battery: if the power supply unit comprises a rechargeable battery, a charging interface is further arranged on the shell.

5. The wireless routing device of claim 4, wherein the first mounting unit is centrally located on the back end, and the at least one battery is disposed around a perimeter of the first mounting unit.

6. The wireless routing device of claim 5, wherein the power supply unit comprises an even number of batteries symmetrically disposed around the circumference of the first mounting unit.

7. The wireless routing device of claim 1, further comprising an insulating unit disposed between the core unit and a power supply unit.

8. The wireless routing device of claim 1, wherein the first mounting unit comprises: one of a threaded connector, a clamping groove, a buckle, a bracket, a steel needle and a magnet.

9. The wireless routing device of claim 1, wherein the at least one antenna is of a retractable structure, and in the unfolded state of the at least one antenna, the wireless routing device is further configured to activate the core unit to enter an operating state: and the core unit is also used for closing the core unit in the state that all the antennas are contracted.

10. The wireless routing device of any one of claims 1 to 9, wherein a second mounting unit is further provided on the housing for mounting an external functional unit.

11. The wireless routing device of claim 10, wherein the external functional unit comprises: one or more of a solar energy-to-electric energy unit, a wind energy-to-electric energy unit, a camera unit, a recording unit, a playback unit, a laser drawing and testing unit and an environment monitoring unit.

12. The wireless router device as claimed in claim 11, wherein the solar-to-electric energy unit and the wind-to-electric energy unit are connected to the power supply unit or the core unit through a charging interface disposed on the housing, and are configured to provide electric energy to the power supply unit or the core unit connected thereto.

13. The wireless routing device of claim 10, wherein the external functional unit has wireless communication functionality, and wherein the core unit is further configured to wirelessly communicate with and/or power the external functional unit via the at least one antenna: or the shell is also provided with a wired communication interface, and the core unit is also used for carrying out wired communication with the external function unit through the wired communication interface and/or supplying power to the external function unit.

14. The wireless routing device of claim 10, wherein the second mounting unit comprises: one of screw thread interface, draw-in groove, buckle, support, magnet, base.

15. A wireless communication system, comprising a server and the wireless routing device of any one of claims 1 to 17, the server configured to perform network communication with the wireless routing device: the wireless router is used for receiving the network signal of the server and radiating the network signal out through at least one antenna, and transmitting the network signal to the server after receiving an external wireless signal through the at least one antenna.

16. The wireless communication system of claim 15, wherein the server is configured to convert a mobile data network and a wired internet network into a wireless network, and then communicate with the wireless routing device through the wireless network.