阅读说明：本技术 一种具有独立电源自动调频的5g通讯设备 (5G communication equipment with independent power supply automatic frequency modulation ) 是由 孙振平 冯进辉 甘宝山 于 2020-06-16 设计创作，主要内容包括：本发明公开了一种具有独立电源自动调频的5G通讯设备,包括外壳、电源模块、射频模组和切线模块,其特征在于：所述外壳的两侧及后侧均安装有信号天线,且外壳后侧左部设置有WLAN接口,所述电源模块的左后侧安装有外电源接口,且电源模块位于外壳的内部右侧,所述射频模组的底部设置有网卡信号块,且射频模组位于外壳的内侧底部,所述切线模块的左侧设置有支撑架,且切线模块位于外壳的内侧底部中端,该种具有独立电源自动调频的5G通讯设备,使用外接电源时可产生双频信号,使得网络稳定较为稳定,抗干扰能力强,在遇到断电断网情况时,设备可以通过内置蓄电池组继续为设备供电,同时切线模块可为设备自动有双频道模式切换为单频道模式。(The invention discloses 5G communication equipment with an independent power supply and automatic frequency modulation function, which comprises a shell, a power supply module, a radio frequency module and a tangent module, and is characterized in that: signal antenna is all installed to the both sides and the rear side of shell, and shell rear side left part is provided with the WLAN interface, outer power source is installed to power module's left rear side, and power module is located the inside right side of shell, the bottom of radio frequency module is provided with network card signal block, and the radio frequency module is located the inboard bottom of shell, the left side of tangent line module is provided with the support frame, and the tangent line module is located the inboard bottom middle-end of shell, this kind of 5G communications facilities with independent power automatic frequency modulation can produce the dual-frenquency signal when using external power supply for the network stability is comparatively stable, and the interference killing feature is strong, when meetting the outage disconnected net condition, equipment can continue to supply power for equipment through built-in storage battery, and the module can have the dual-frenquency mode to switch into single channel mode.)

1. The utility model provides a 5G communications facilities with independent power supply automatic frequency modulation, includes shell (1), power module (4), radio frequency module (8) and tangent line module (17), its characterized in that: signal antenna (2) are all installed to the both sides and the rear side of shell (1), and shell (1) rear side left part is provided with WLAN interface (3), outer power source (7) are installed to the left rear side of power module (4), and power module (4) are located the inside right side of shell (1), the bottom of radio frequency module (8) is provided with network card signal piece (12), and radio frequency module (8) are located the inboard bottom of shell (1), the left side of tangent line module (17) is provided with support frame (18), and tangent line module (17) are located the inboard bottom middle-end of shell (1).

2. A 5G communication device with independent power supply auto-frequency modulation according to claim 1, wherein: the number of the signal antennas (2) is 4, and the signal antennas are symmetrical through a vertical center line of the shell (1).

3. A 5G communication device with independent power supply auto-frequency modulation according to claim 1, wherein: the power module (4) comprises a storage battery pack (5), a transformer (6) and an outer power interface (7), the bottom of the outer power interface (7) is connected with the shell (1), the storage battery pack (5) is arranged on the right side of the outer power interface (7), and the transformer (6) is arranged on the left front side of the storage battery pack (5).

4. A 5G communication device with independent power supply auto-frequency modulation according to claim 3, wherein: and the external power interface (7) is connected with the storage battery pack (5) and the transformer (6) through leads.

5. A 5G communication device with independent power supply auto-frequency modulation according to claim 1, wherein: the radio frequency module (8) comprises an integrated circuit board (9), a low radio frequency block (10), a high radio frequency block (11), a network card signal block (12), a network card slot (13), a bidirectional power connection port (14), a vertical direct power port (15) and a horizontal power connection port (16), wherein the low radio frequency block (10) is arranged on the upper right side of the integrated circuit board (9), the high radio frequency block (11) is arranged on the rear side of the low radio frequency block (10), the network card signal block (12) is arranged below the integrated circuit board (9), the network card slot (13) is arranged on the upper surface of the network card signal block (12), the bidirectional power connection port (14) is arranged on the right side of the low radio frequency block (10), the vertical direct power port (15) is arranged on the right side of the high radio frequency block (11), and the horizontal power connection port (16) is arranged on the right side of the network card signal.

6. A5G communication device with independent power supply auto-frequency modulation according to claim 5, wherein: the integrated circuit board (9) is fixed with the low radio frequency block (10) and the high radio frequency block (11) through welding, the network card signal block (12) is connected with the integrated circuit board (9) through a lead, and the integrated circuit board (9) is connected with the shell (1) through a clamping groove.

7. A 5G communication device with independent power supply auto-frequency modulation according to claim 1, wherein: the wire cutting module (17) comprises a support frame (18), conductor rods (19), springs (20), shifting pieces (21), three joints (22), an upper electric head (23) and electromagnets (24), wherein the support frame (18) is provided with two conductor rods (19) penetrating through the top ends of the two support frames (18), the left end of each spring (20) is connected with the support frame (18), the right end of each spring (20) is fixed with the corresponding shifting piece (21), one end of each shifting piece (21) is connected with the corresponding conductor rod (19), the electromagnets (24) are arranged below the shifting pieces (21), the three joints (22) are installed at the left end of each conductor rod (19), and each joint of the three joints (22) is provided with the upper electric head (23).

8. The 5G communication device with independent power supply auto-frequency modulation according to claim 7, wherein: the conductor rod (19) and the shifting piece (21) are of an integrated structure, the spring (20), the shifting piece (21) and the support frame (18) are welded, the conductor rod (19) and the support frame (18) are movably connected to form a rotatable structure, and the three joint (22), the upper head (23) and the conductor rod (19) are of an integrated structure.

9. A 5G communication device with independent power supply auto-frequency modulation according to claim 1, wherein: the transformer (6) is connected with the electromagnet (24) and the storage battery pack (5) through a lead to form a parallel circuit.

Technical Field

The invention relates to the technical field of 5G communication, in particular to 5G communication equipment with an independent power supply and automatic frequency modulation function.

Background

The fifth Generation mobile communication technology (english: 5th Generation mobile networks or 5th Generation with communication systems, 5G or 5G technology for short) is the latest Generation cellular mobile communication technology, i.e. the extension behind 4G (LTE-A, WiMax), 3G (UMTS, LTE) and 2G (gsm) systems, the performance goal of 5G is high data rate, delay reduction, energy saving, cost reduction, system capacity improvement and large-scale device connection, the first phase of the 5G specification in Release-15 is to adapt to early commercial deployment, the second phase of Release-16 is completed in 4 months in 2020, and is submitted to International Telecommunication Union (ITU) 1 as a candidate of IMT-2020 technology, the ITU IMT-2020 specification requires speed as high as 20Gbit/s, wide channel bandwidth and large capacity MIMO can be achieved, the router is a common 5G communication device, generally, a network used by a user is unstable due to the setting of a single channel, and a router must use an external power supply, and the router cannot provide the network any more under the condition of power failure and network disconnection, which brings inconvenience to data transmission, so that a structure improvement needs to be performed on the router.

The router in the market usually causes unstable network use of the user due to the setting of a single channel, and the router must use an external power supply, and the router cannot provide the network any more under the condition of power failure and network disconnection, which brings inconvenience to data transmission.

Disclosure of Invention

The invention aims to provide 5G communication equipment with an independent power supply automatic frequency modulation function, and aims to solve the problems that a router in the market is unstable in network use of a user due to the setting of a single channel, the router needs to use an external power supply, and the router cannot provide a network under the condition of power failure and network outage, so that inconvenience is brought to data transmission.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a 5G communications facilities with independent power supply automatic frequency modulation, includes shell, power module, radio frequency module and tangent line module, its characterized in that: signal antennas are installed to the both sides and the rear side of shell all, and shell rear side left part is provided with the WLAN interface, outer power source is installed to power module's left rear side, and power module is located the inside right side of shell, the bottom of radio frequency module is provided with network card signal block, and the radio frequency module is located the inboard bottom of shell, the left side of tangent line module is provided with the support frame, and the tangent line module is located the inboard bottom middle-end of shell.

Preferably, the number of the signal antennas is 4, and the signal antennas are symmetrical through a vertical center line of the shell.

Preferably, the power module comprises a storage battery pack, a transformer and an external power interface, the bottom of the external power interface is connected with the shell, the storage battery pack is arranged on the right side of the external power interface, and the transformer is arranged on the left front side of the storage battery pack.

Preferably, the external power interface is connected with the storage battery pack and the transformer through leads.

Preferably, the radio frequency module comprises an integrated circuit board, a low radio frequency block, a high radio frequency block, a network card signal block, a network card slot, a bidirectional power connection port, a vertical direct power connection port and a horizontal power connection port, the low radio frequency block is arranged on the upper right of the integrated circuit board, the high radio frequency block is arranged on the rear side of the low radio frequency block, the network card signal block is arranged below the integrated circuit board, the network card slot is arranged on the upper surface of the network card signal block, the bidirectional power connection port is arranged on the right side of the low radio frequency block, the vertical direct power connection port is arranged on the right side of the high radio frequency block, and the horizontal power connection port is arranged on the right side of the network card signal.

Preferably, the integrated circuit board is fixed with the low radio frequency block and the high radio frequency block by welding, the network card signal block is connected with the integrated circuit board by a lead, and the integrated circuit board is connected with the shell by a clamping groove.

Preferably, the tangent line module includes support frame, conductor pole, spring, plectrum, three connect, goes up electric head and electro-magnet, the support frame is provided with two, and the conductor pole runs through in the top of two support frames, the left end of spring is connected with the support frame, and the right-hand member of spring is fixed with the plectrum, and the one end of plectrum is connected with the conductor pole, the below of plectrum is provided with the electro-magnet, three connect are installed to the left end of conductor pole, and all install on each connect of three connect and go up the electric head.

Preferably, the conductor rod and the shifting piece are of an integrated structure, the spring, the shifting piece and the support frame are welded, the conductor rod and the support frame are movably connected to form a rotatable structure, and the three joints, the upper electric head and the conductor rod are of an integrated structure.

Preferably, the transformer is connected with the electromagnet and the storage battery pack through a lead to form a parallel circuit.

Compared with the prior art, the invention has the following beneficial effects:

1. the low radio frequency block of the invention adopts a 2.4GHz radio frequency module, and the high radio frequency block adopts a 5GHz radio frequency module, so that the router can be more stable during data transmission and has stronger anti-interference performance.

2. The integrated circuit board, the low radio frequency block and the high radio frequency block are of a welding integrated structure, and power can be conducted on all elements under the condition that all elements are kept stable.

3. The conductor rod, the shifting sheet and the three joints are welded, so that the integral stability of the tangent module and the smoothness of a circuit are facilitated.

4. The transformer, the electromagnet and the storage battery pack are connected through the conducting wires to form a parallel circuit, so that when the radio frequency module is always in a working state, the tangent module can select different power supply circuits according to different electric energy sources.

Drawings

FIG. 1 is a schematic view of the internal structure of the main body;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic structural diagram of a radio frequency module according to the present invention;

FIG. 5 is a schematic view of a tangent module structure according to the present invention;

FIG. 6 is a schematic diagram of an internal wiring framework of the present invention.

In the figure: 1. a housing; 2. a signal antenna; 3. a WLAN interface; 4. a power supply module; 5. a battery pack; 6. a transformer; 7. an external power interface; 8. a radio frequency module; 9. an integrated circuit board; 10. a low-frequency block; 11. a high-frequency block; 12. a network card signal block; 13. a network card slot; 14. a bidirectional power connection port; 15. a vertical direct electric port; 16. a horizontal power connection port; 17. a thread cutting module; 18. a support frame; 19. a conductor bar; 20. a spring; 21. a shifting sheet; 22. a third joint; 23. a power-on head; 24. an electromagnet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides the following technical solutions: the utility model provides a 5G communications facilities with independent power supply automatic frequency modulation, includes shell 1, power module 4, radio frequency module 8 and tangent line module 17, and signal antenna 2 is all installed to the both sides of shell 1 and rear side, and 1 rear side left part of shell is provided with WLAN interface 3, and signal antenna 2 is provided with 4, and just the vertical central line symmetry through shell 1.

Outer power source 7 is installed to power module 4's left rear side, and power module 4 is located the inside right side of shell 1, and power module 4 includes storage battery 5, transformer 6 and outer power source 7, and outer power source 7's bottom is connected with shell 1, and outer power source 7's right side is provided with storage battery 5, and storage battery 5's left front side is provided with transformer 6, all is connected through the wire between outer power source 7 and storage battery 5 and the transformer 6.

The bottom of the radio frequency module 8 is provided with a network card signal block 12, and the radio frequency module 8 is located at the inside bottom of the shell 1, the radio frequency module 8 comprises an integrated circuit board 9, a low radio frequency block 10, a high radio frequency block 11, a network card signal block 12, a network card slot 13, a bidirectional power interface 14, a vertical power interface 15 and a horizontal power interface 16, the upper right side of the integrated circuit board 9 is provided with the low radio frequency block 10, the rear side of the low radio frequency block 10 is provided with the high radio frequency block 11, the lower side of the integrated circuit board 9 is provided with the network card signal block 12, the upper surface of the network card signal block 12 is provided with the network card slot 13, the right side of the low radio frequency block 10 is provided with the bidirectional power interface 14, the right side of the high radio frequency block 11 is provided with the vertical power interface 15, and.

All through welded fastening between integrated circuit board 9 and low radio frequency block 10 and the high radio frequency block 11, pass through the wire connection between network card signal block 12 and the integrated circuit board 9, be the draw-in groove between integrated circuit board 9 and the shell 1 and be connected, 2.4GHz radio frequency module is selected for use to low radio frequency block 10, 5GHz radio frequency module is selected for use to high radio frequency block 11, can make the router more stable when carrying out data transmission, interference immunity is stronger, integrated circuit board 9 and low radio frequency block 10 and high radio frequency block 11 formula structure as an organic whole that welds, be favorable to each component can circular telegram under the state that remains stable.

The left side of tangent line module 17 is provided with support frame 18, and tangent line module 17 is located the inboard bottom middle-end of shell 1, tangent line module 17 includes support frame 18, conductor pole 19, spring 20, plectrum 21, three connect 22, go up electric head 23 and electro-magnet 24, support frame 18 is provided with two, and conductor pole 19 runs through in the top of two support frames 18, the left end of spring 20 is connected with support frame 18, and the right-hand member of spring 20 is fixed with plectrum 21, and the one end of plectrum 21 is connected with conductor pole 19, the below of plectrum 21 is provided with electro-magnet 24, three connect 22 are installed to the left end of conductor pole 19, and all install electric head 23 on each joint of three connect 22.

Conductor pole 19 and plectrum 21 formula structure as an organic whole, be the welding between spring 20 and plectrum 21 and the support frame 18, be active link between conductor pole 19 and the support frame 18, constitute rotatable structure, three connect 22 and go up head 23 and conductor pole 19 formula structure as an organic whole, be the welding between conductor pole 19 and plectrum 21 and three connect 22, be favorable to tangent line module 17 holistic stability and circuit unblocked.

The transformer 6 is connected with the electromagnet 24 and the storage battery pack 5 through conducting wires to form a parallel circuit, so that when the radio frequency module 8 is always in a working state, the tangent module 17 can select different power supply circuits according to different electric energy sources.

The working principle is as follows: when the 5G communication equipment with the independent power supply automatic frequency modulation is used, a usable network card is firstly placed in the network card slot 13 on the upper side of the radio frequency module 8, then a network cable is connected to the WLAN interface 3, meanwhile, a power line is plugged into the external power supply interface 7 in the power supply module 4, and the whole equipment is powered on.

Then, the external power interface 7 is electrified and is transmitted to the transformer 6 through a lead, the transformer 6 converts the external power voltage into a working voltage and transmits the working voltage to the storage battery 5 and the electromagnet 24 through the lead, at the same time, the electromagnet 24 starts to be electrified and generates magnetic force to adsorb the shifting sheet 21, the movement of the shifting sheet 21 drives the conductor rod 19 to rotate on the support frame 18, and the spring 20 generates elastic deformation, the conductor rod 19 rotates to drive the three-joint 22 to rotate, so that the upper electric head 23 is connected with the two-way electric interface 14 and the vertical electric interface 15, at the moment, the transformer 6 supplies power to the storage battery 5, when the storage battery 5 supplies the current required by the equipment work to the conductor rod 19 through the lead, the storage battery starts to store electricity, the low-radio frequency block 10, the high-radio-frequency block 11 and the integrated circuit board 9 are electrified, the equipment starts to operate and generates a two, the user is enabled to use the network.

When an external power supply is disconnected and a network circuit is disconnected, the external power supply interface 7 does not continuously supply power to the equipment, at the moment, the electromagnet 24 is powered off, the magnetic force disappears, the poking sheet 21 is not adsorbed by the electromagnet 24 and is influenced by the deformation and resilience of the spring 20 to drive the conductor rod 19 to reversely rotate, the upper power head 23 on the three-joint 22 is connected with the two-way power connection port 14 and the horizontal power connection port 16, the storage battery pack 5 continuously supplies power to the conductor rod 19, the high-radio-frequency block 11 is powered off, the energy consumption of the storage battery pack 5 is reduced, and the network card signal block 12 is powered on.

At this time, the network card signal block 12 generates a signal using the network card in the network card slot 13 and the low-frequency block 10, and continues to provide the network to the user by spreading the signal through the signal antenna 2.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.