CN114217336A - Asset visualization monitoring terminal based on Beidou positioning and 5G communication - Google Patents

Abstract

The invention provides an asset visualization monitoring terminal based on Beidou positioning and 5G communication. The intelligent Beidou satellite communication system mainly comprises an ARM9 processor, a memory, an integrated circuit, a Beidou positioning module, a 915Mhz radio frequency wireless communication module, a 5G communication module, a touch display screen, a display screen protective cover, a rechargeable battery, a USB interface, a power supply module, a solar module and a shell. The Beidou positioning module receives the instruction sent by the ARM9 processor, and sends the positioning coordinate data to the ARM9 processor for processing. The 915Mhz radio frequency wireless communication module is used for transmitting radio frequency information and receiving chip number information returned by surrounding radio frequency tags. The invention carries out position visual monitoring on the asset equipment of the power supply company, and has the functions of asset Beidou positioning, indoor and outdoor position sensing, 5G communication data uploading, visual monitoring and position change alarming. The visual monitoring terminal is suitable for being applied as a visual monitoring terminal.

Description

Asset visualization monitoring terminal based on Beidou positioning and 5G communication

Technical Field

The invention relates to a monitoring terminal in the field of electric power, in particular to an asset visualization monitoring terminal based on Beidou positioning and 5G communication.

Background

At present, the position of asset equipment in a transformer substation, a line and a transformer area of a power supply company cannot be visually monitored. A monitoring terminal for asset visual positioning, position sensing, dynamic monitoring, 5G communication transmission, asset position display and abnormal change alarm is urgently needed to complete the Beidou positioning of asset positions, dynamic position monitoring and visual monitoring.

Disclosure of Invention

For the purpose of asset visual monitoring, the invention provides an asset visual monitoring terminal based on Beidou positioning and 5G communication. The terminal solves the technical problem of asset visualization monitoring through an ARM9 processor and a 915Mhz radio frequency wireless communication module.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides an asset visualization monitor terminal based on big dipper location +5G communication mainly comprises ARM9 treater, memory, integrated circuit, big dipper orientation module, 915Mhz radio frequency wireless communication module, 5G communication module, touch display screen, display screen protection casing, rechargeable battery, USB interface, power module, solar module and shell.

In order to further solve the technical problem to be solved by the invention, in the ARM9 processor provided by the invention, the ARM9 processor has a dominant frequency of 2.6Ghz and is used for completing system program execution, data receiving processing, communication module control and output display; the ARM9 processor is connected with the memory, the integrated circuit, the Beidou positioning module, the 915Mhz radio frequency wireless communication module and the 5G communication module through the integrated circuit; and sending an operation control instruction and receiving returned data.

Further, the memory is used for storing asset number data and positioning information data, and the storage space 256G is used for receiving data and information sent by the ARM9 processor and is stored inside.

Furthermore, the Beidou positioning module has a coordinate positioning function based on a Beidou satellite; the method comprises the steps that through the connection of an integrated circuit, an instruction sent by an ARM9 processor is received, and current longitude and latitude coordinate data are obtained; the Beidou positioning module sends the positioning coordinate data to the ARM9 processor for processing.

Further, the 915Mhz radio frequency wireless communication module is connected with the ARM9 processor through a data line, and is used for transmitting wireless radio frequency information and receiving chip number information returned by surrounding radio frequency tags; when the assets are located indoors, the ARM9 processor sends a control instruction to the 915Mhz radio frequency wireless communication module, the 915Mhz radio frequency wireless communication module sends an ultrahigh frequency radio frequency signal, the 915Mhz RFID label pasted on the indoor assets receives the radio frequency signal and then sends the chip number of the 915Mhz RFID label to the 915Mhz radio frequency wireless communication module 3.1, and after the 915Mhz radio frequency wireless communication module receives the chip number of the 915Mhz RFID label, the chip number data of the RFID label is packaged and then sent to the AR9M processor for subsequent processing.

Furthermore, the 5G communication module has a 5G communication function, establishes communication connection of a 5G network, and completes sending and receiving of data; the 5G communication module is connected with the ARM9 processor through a data line, establishes 5G communication connection after receiving an instruction sent by the ARM9 processor, transmits data sent by the ARM9 processor through a 5G network, and sends the data to a designated server.

The intelligent monitoring system has the advantages that the position of the asset equipment of a transformer substation, a circuit and a transformer area of a power supply company is visually monitored by the ARM9 processor and the 915Mhz radio frequency wireless communication module, and the intelligent monitoring system has the functions of asset Beidou positioning, indoor and outdoor position sensing, 5G communication data uploading, visual monitoring and position change alarming. The asset visualization monitoring terminal is suitable for being applied as an asset visualization monitoring terminal based on Beidou positioning and 5G communication.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention.

In the figure, 1 is a shell, 2 is a Beidou positioning module display screen, 2.1 is a Beidou positioning module, 3.915Mhz radio frequency wireless communication module antenna, 3.1.915Mhz radio frequency wireless communication module, 4.5G communication module antenna, 4.1.5G communication module, 5 is a solar panel, 5.1 is a solar module, 6 is a solar panel support, 7 is a display screen protective cover, 8 is a touch display screen, 9 is a USB interface, 10 is a power module interface, 10.1 is a power module, 11 is an ARM9 processor, 12 is a memory, 13 is an integrated circuit, 14 is a rechargeable battery, and 15 is a charging controller.

Detailed Description

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

According to the figure, the asset visualization monitoring terminal based on Beidou positioning and 5G communication mainly comprises an ARM9 processor 11, a memory 12, an integrated circuit 13, a Beidou positioning module 2.1, a 915Mhz radio frequency wireless communication module 3.1, a 5G communication module 4.1, a touch display screen 8, a display screen protective cover 7, a rechargeable battery 14, a USB interface 9, a power supply module 10.1, a solar module 5.1 and a shell 1; the central part of the top of the shell 1 is provided with a touch display screen 8 with a display screen protective cover 7, one side of the top of the shell is connected with a solar panel 5 through a solar panel bracket 6, two ends of the top of the shell are respectively provided with a 915Mhz radio frequency wireless communication module antenna 3 and a 5G communication module antenna 4, one side of the shell 1 is provided with a USB interface 9 and a power module interface 10, and the front side of the shell is provided with a Beidou positioning module display screen 2; the solar energy charging device is characterized in that an ARM9 processor 11, a memory 12, an integrated circuit 13, a rechargeable battery 14 and a charging controller 15 are arranged inside the shell 1, and the solar energy charging device is further provided with a Beidou positioning module 2.1 connected with a Beidou positioning module display screen 2, a 915Mhz radio frequency wireless communication module 3.1 connected with a 915Mhz radio frequency wireless communication module antenna 3, a 5G communication module 4.1 connected with a 5G communication module antenna 4, a solar energy module 5.1 for controlling the solar energy panel 5 and a power supply module 10.1 connected with a power supply module interface 10.

The ARM9 processor 11 has a main frequency of 2.6Ghz and is used for completing system program execution, data receiving processing, communication module control and output display; the ARM9 processor is connected with the memory 12, the integrated circuit 13, the Beidou positioning module 2.1, the 915Mhz radio frequency wireless communication module 3.1 and the 5G communication module 4.1 through the integrated circuit; and sending an operation control instruction and receiving returned data.

The memory 12 is used for storing asset number data and positioning information data, and the storage space 256G, and the memory 12 receives data and information sent by the ARM9 processor 11 and stores the data and the information internally.

The Beidou positioning module 2.1 has a coordinate positioning function based on a Beidou satellite; the method comprises the steps that through the connection of an integrated circuit, an instruction sent by an ARM9 processor 11 is received, and current longitude and latitude coordinate data are obtained; the Beidou positioning module 2.1 sends the positioning coordinate data to the ARM9 processor 11 for processing.

The 915Mhz radio frequency wireless communication module 3.1 is connected with the ARM9 processor 11 through a data line and is used for transmitting wireless radio frequency information and receiving chip number information returned by surrounding radio frequency tags; when the asset is located indoors, the ARM9 processor 11 sends a control instruction to the 915Mhz radio frequency wireless communication module 3.1, the 915Mhz radio frequency wireless communication module 3.1 sends an ultrahigh frequency wireless radio frequency signal, the 915Mhz RFID tag attached to the indoor asset receives the wireless radio frequency signal, the chip number of the 915Mhz RFID tag is sent to the 915Mhz radio frequency wireless communication module 3.1, and after the 915Mhz radio frequency wireless communication module 3.1 receives the chip number of the 915Mhz RFID tag, the chip number data of the RFID tag is packaged and sent to the AR9M processor 11 for subsequent processing.

The 5G communication module 4.1 has a 5G communication function, establishes communication connection of a 5G network and completes data sending and receiving; the 5G communication module 4.1 is connected with the ARM9 processor 11 through a data line, establishes 5G communication connection after receiving an instruction sent by the ARM9 processor 11, transmits data sent by the ARM9 processor 11 through a 5G network, and sends the data to a designated server.

The touch display screen 8 is a 9-inch liquid crystal touch screen, a display screen protective cover 7 is arranged on the touch display screen and used for protecting the display screen, the display screen protective cover 7 is opened when the touch display screen 8 is used, and the display screen protective cover 7 is closed after the touch display screen 8 is used, so that wind and water are prevented; the touch display screen 8 is placed on the upper portion of the terminal and used for operation input and information display in the terminal, the touch display screen 8 is connected with the ARM9 processor 11, receives information sent by the ARM9 processor 11, displays content, and sends the information input by the operation of the touch display screen 8 to the ARM9 processor 11 for execution.

The solar module 5.1 is used for receiving sunlight and converting the sunlight to form electric energy, a 100W single crystal solar panel 5 is adopted, a 12V10AH lithium battery and a charging controller are arranged in the solar module, the charging controller controls the charging of the lithium battery, the charging is automatically stopped after the charging is fully performed, and the charging is started when the electric quantity is insufficient.

The power supply module 10.1 is connected with the solar module 5.1 and the rechargeable battery, receives a 12V power supply of the solar module 5.1 and provides a working power supply for the terminal; when the electric quantity of the solar module 5.1 or the rechargeable battery is insufficient, the two power supplies can be switched, and the power supply stability of the terminal equipment is ensured.

The rechargeable battery 14, the standby rechargeable battery 14 arranged in the terminal and the capacity of 6000 milliamperes are connected with the power module 10.1 to provide a working power supply for the terminal; the rechargeable battery 14 is charged by connecting an external power supply.

The USB interface 9 is connected to the integrated circuit 13, and receives an input device of an external UBS interface through the USB interface 9.

The working principle of the invention is as follows:

the asset visualization monitoring terminal based on Beidou positioning +5G communication is placed at asset sites of a transformer substation, a line, a transformer area and the like, the names, asset information, asset numbers, chip numbers and asset quantity contents of the transformer substation, the line and the transformer area are input through operation on a touch display screen on the terminal, and information can also be imported after a USB flash disk is inserted through a USB interface. And after the asset information is input, storing the asset information in a memory of the asset visualization monitoring terminal based on Beidou positioning +5G communication. And each asset site is one-to-one bound with an asset visual monitoring terminal based on Beidou positioning and 5G communication. When the asset positioning information is uploaded, the asset and the position information are automatically uploaded according to the asset site bound by the asset visual monitoring terminal based on Beidou positioning +5G communication.

The asset visualization monitoring terminal based on Beidou positioning +5G communication is installed on asset sites such as transformer substations, lines and transformer stations, and is mainly powered by a solar module under outdoor environment, and a power supply module switches a rechargeable battery to supply power under the condition that the electric quantity of the solar module is temporarily insufficient. In an indoor environment, a rechargeable battery is mainly used for supplying power, and an indoor power supply is connected to charge the rechargeable battery.

The working process of the invention is as follows:

the asset visualization monitoring terminal based on Beidou positioning +5G communication carries out outdoor asset positioning and position sensing, an ARM9 processor 11 sends a control instruction to a 915Mhz radio frequency wireless communication module 3.1, the 915Mhz radio frequency wireless communication module 3.1 transmits a wireless radio frequency signal to form a wireless radio frequency induction and transmission network, and the radius of the outdoor network coverage range reaches 100 meters; after the wireless radio frequency network, the 915Mhz RFID tag on the asset equipment senses radio frequency signals, starts radio frequency connection, sends chip numbers in the 915Mhz RFID tag to the 915Mhz radio frequency wireless communication module 3.1 through the wireless radio frequency network, when the 915Mhz radio frequency wireless communication module 3.1 receives the chip numbers sent by the 915Mhz RFID tag, sends the chip numbers to the ARM9 processor 11, and after the ARM9 processor 11 receives the chip numbers of the 915Mhz RFID tag, the calculation processing is carried out to remove repeated chip numbers, and the repeated chip numbers are inquired and compared with asset equipment information stored in the memory 12, so that the positioned asset equipment numbers and the asset quantity are formed.

The asset visualization monitoring terminal based on Beidou positioning +5G communication carries out indoor asset positioning and position sensing, an ARM9 processor 11 sends a control instruction to a 915Mhz radio frequency wireless communication module 3.1, the 915Mhz radio frequency wireless communication module 3.1 transmits a wireless radio frequency signal to form a wireless radio frequency induction and transmission network, and the radius of the coverage range of the indoor network reaches 30 meters; after the wireless radio frequency network, the 915Mhz RFID tag on the asset equipment senses radio frequency signals, starts radio frequency connection, sends chip numbers in the 915Mhz RFID tag to the 915Mhz radio frequency wireless communication module 3.1 through the wireless radio frequency network, when the 915Mhz radio frequency wireless communication module 3.1 receives the chip numbers sent by the 915Mhz RFID tag, sends the chip numbers to the ARM9 processor 11, and after the ARM9 processor 11 receives the chip numbers of the 915Mhz RFID tag, the calculation processing is carried out to remove repeated chip numbers, and the repeated chip numbers are inquired and compared with asset equipment information stored in the memory 12, so that the positioned asset equipment numbers and the asset quantity are formed.

The method comprises the steps that an asset visualization monitoring terminal based on Beidou positioning +5G communication uploads asset real-time position data, and positioned asset equipment numbers and asset quantity are obtained after indoor and outdoor assets are positioned; the terminal carries out Beidou coordinate positioning, an ARM9 processor 11 sends a control instruction to a Beidou positioning module 2.1, and the Beidou positioning module 2.1 starts a positioning function to obtain longitude and latitude coordinates of a Beidou satellite; the Beidou positioning module 2.1 sends the longitude and latitude coordinates to the ARM9 processor 11 to complete Beidou positioning of the asset position; the ARM9 processor 11 packages the Beidou positioning coordinate data, the positioned indoor/outdoor asset equipment numbers and the asset quantity together; after the data packet is formed, asset location data is sent.

The asset visualization monitoring terminal based on Beidou positioning and 5G communication sends asset position data, and the terminal sends packed positioning data to a receiving end of a fixed server through a 5G network; the ARM9 processor 11 sends a control instruction to the 5G communication module 4.1, the 5G communication module 4.1 establishes 5G communication network connection after being started, and the ARM9 processor 11 sends the packaged asset positioning data to a fixed server receiving end through the 5G communication module 4.1; and the real-time positioning and dynamic monitoring of the assets are completed.

Based on the Beidou positioning +5G communication asset visualization monitoring terminal, asset visualization positioning and asset position display are carried out, after the terminal obtains the positioned asset equipment number and asset quantity and Beidou coordinate positioning longitude and latitude data, the ARM9 processor 11 stores the data in the memory 12, the ARM9 processor 11 sends display information to the touch display screen 8, and Beidou positioning coordinates, asset equipment details and asset quantity can be displayed on the touch display screen 8; and clicking operation on the touch display screen can check the information, distribution position and quantity content of the indoor/outdoor assets.

The method comprises the steps that on the basis of an asset visualization monitoring terminal of Beidou positioning +5G communication, after Beidou coordinate data and positioning asset data are sent to a fixed server receiving end, a server end program analyzes the data, wherein the analysis processing is to number received asset equipment, find corresponding asset equipment names in the program and receive the Beidou positioning coordinate data together; displaying asset coordinates and distribution conditions on the electronic map, and displaying asset details, asset information and asset quantity on the electronic map; and completing the visual real-time monitoring of the assets.

The asset visualization monitoring terminal based on Beidou positioning +5G communication carries out dynamic monitoring and abnormal change alarming, an ARM9 processor 11 sends a control instruction to a 915Mhz radio frequency wireless communication module 3.1, the 915Mhz radio frequency wireless communication module 3.1 transmits a radio frequency signal to form a radio frequency induction and transmission network, the radius of the coverage range of an indoor network reaches 30 meters, and the radius of the coverage range of an outdoor network reaches 100 meters; after a wireless radio frequency network, a 915Mhz RFID tag on the asset equipment senses a radio frequency signal, starts radio frequency connection, sends a chip number in the 915Mhz RFID tag to a 915Mhz radio frequency wireless communication module 3.1 through the wireless radio frequency network, sends the chip number sent by the 915Mhz RFID tag to an ARM9 processor 11 after the 915Mhz radio frequency wireless communication module 3.1 receives the chip number sent by the 915Mhz RFID tag, and calculates and removes repeated chip numbers to form a positioned asset equipment number and an asset quantity after the ARM9 processor 11 receives the chip number of the 915Mhz RFID tag; the ARM9 processor 11 sends a read fund amount instruction to the memory 12, the memory 12 sends the internally stored fund amount to the ARM9 processor 11, the ARM9 processor 11 compares the asset amount sent by the memory 12 with the received asset amount without the duplicate chip number, and if the two amounts are consistent, the calculation formula is: the number of assets in the storage device-the number of assets in the receiving device = 0, which indicates that the assets in the field are not changed, and the assets are all in the monitoring range;

if the two quantities are not consistent, calculating the asset change result (increasing/decreasing), and starting an asset abnormity alarm;

the calculation formula is as follows: the number of assets in the memory, the number of assets received is greater than 0, which indicates that the assets in the field are reduced and changed;

the calculation formula is as follows: number of assets in memory-number of assets received < 0, indicating that the assets in the field are increasing and changing;

an ARM9 processor 11 starts an abnormal alarm, an ARM9 processor 11 sends an instruction to a 5G communication module 4.1 to start an alarm information sending operation, and the 5G communication module 4.1 establishes network communication connection and is communicated with an alarm receiving end of a fixed server; ARM9 treater 11 sends alarm information to 5G communication module 4.1, and the alarm information content is:

asset reduction alarm content: "asset transition alarm + field name + asset reduction + reduction number (number of memory assets-number of receiving assets), please look over as soon as possible";

asset reduction increase content: "asset transition alarm + field name + asset increment + increment quantity (number of received assets-number of memory assets), please look over as soon as possible";

the 5G communication module 4.1 sends the alarm information to an alarm receiving end of the fixed server, and after the alarm receiving end receives the alarm information, the alarm information is sent to an administrator mailbox and a mobile phone in a mail and short message mode through an alarm program.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides an asset visual monitor terminal based on big dipper location +5G communication, characterized by: the solar mobile phone is mainly composed of an ARM9 processor (11), a memory (12), an integrated circuit (13), a Beidou positioning module (2.1), a 915Mhz radio frequency wireless communication module (3.1), a 5G communication module (4.1), a touch display screen (8), a display screen protective cover (7), a rechargeable battery (14), a USB interface (9), a power supply module (10.1), a solar module (5.1) and a shell (1); the center of the top of the shell (1) is provided with a touch display screen (8) with a display screen protective cover (7), one side of the top of the shell is connected with a solar panel (5) through a solar panel bracket (6), two ends of the top of the shell are respectively provided with a 915Mhz radio frequency wireless communication module antenna (3) and a 5G communication module antenna (4), one side of the shell (1) is provided with a USB interface (9) and a power module interface (10), and the front side of the shell is provided with a Beidou positioning module display screen (2); the solar charging device is characterized in that an ARM9 processor (11), a memory (12), an integrated circuit (13), a rechargeable battery (14) and a charging controller (15) are arranged inside a shell (1), a Beidou positioning module (2.1) connected with a Beidou positioning module display screen (2) is further arranged, a 915Mhz radio frequency wireless communication module (3.1) connected with a 915Mhz radio frequency wireless communication module antenna (3), a 5G communication module (4.1) connected with a 5G communication module antenna (4), a solar module (5.1) of a control solar panel (5) and a power module (10.1) connected with a power module interface (10) are further arranged.

2. The asset visualization monitoring terminal based on Beidou positioning +5G communication according to claim 1, characterized in that:

the ARM9 processor (11) has a main frequency of 2.6Ghz and is used for completing system program execution, data receiving processing, communication module control and output display; the ARM9 processor is connected with the memory (12), the integrated circuit (13), the Beidou positioning module (2.1), the 915Mhz radio frequency wireless communication module (3.1) and the 5G communication module (4.1) through the integrated circuit; and sending an operation control instruction and receiving returned data.

3. The asset visualization monitoring terminal based on Beidou positioning +5G communication according to claim 1, characterized in that:

the memory (12) is used for storing asset number data and positioning information data, and the storage space 256G, and the memory (12) receives data and information sent by the ARM9 processor (11) and stores the data and the information inside.

4. The asset visualization monitoring terminal based on Beidou positioning +5G communication according to claim 1, characterized in that:

the Beidou positioning module (2.1) has a coordinate positioning function based on a Beidou satellite; the method comprises the steps that through the connection of an integrated circuit, an instruction sent by an ARM9 processor (11) is received, and current longitude and latitude coordinate data are obtained; the Beidou positioning module (2.1) sends the positioning coordinate data to the ARM9 processor (11) for processing.

5. The asset visualization monitoring terminal based on Beidou positioning +5G communication according to claim 1, characterized in that:

the 915Mhz radio frequency wireless communication module (3.1) is connected with the ARM9 processor (11) through a data line and is used for transmitting radio frequency information and receiving chip number information returned by surrounding radio frequency tags; when the assets are located indoors, the ARM9 processor (11) sends a control instruction to the 915Mhz radio frequency wireless communication module (3.1), the 915Mhz radio frequency wireless communication module (3.1) sends an ultrahigh frequency radio frequency signal, a 915Mhz RFID label pasted on the indoor assets receives the radio frequency signal and then sends a chip number of the 915Mhz RFID label to the 915Mhz radio frequency wireless communication module (3.1), and after the 915Mhz radio frequency wireless communication module (3.1) receives the chip number of the 915Mhz RFID label, the chip number data of the RFID label are packaged and then sent to the AR9M processor (11) for subsequent processing.

6. The asset visualization monitoring terminal based on Beidou positioning +5G communication according to claim 1, characterized in that:

the 5G communication module (4.1) has a 5G communication function, establishes communication connection of a 5G network and completes data sending and receiving; the 5G communication module (4.1) is connected with the ARM9 processor (11) through a data line, establishes 5G communication connection after receiving an instruction sent by the ARM9 processor (11), transmits data sent by the ARM9 processor (11) through a 5G network, and sends the data to a designated server.

7. The asset visualization monitoring terminal based on Beidou positioning +5G communication according to claim 1, characterized in that:

the touch display screen (8) is a 9-inch liquid crystal touch screen, a display screen protective cover (7) is arranged on the touch display screen and used for protecting the display screen, the display screen protective cover (7) is opened when the touch display screen is used, and the display screen protective cover (7) is closed after the touch display screen is used, so that the touch display screen is windproof and waterproof; the touch display screen (8) is placed on the upper portion of the terminal and used for operation input and information display in the terminal, the touch display screen (8) is connected with the ARM9 processor (11), receives information sent by the ARM9 processor (11), displays content, and sends the information input by the operation of the touch display screen (8) to the ARM9 processor (11) for execution.

8. The asset visualization monitoring terminal based on Beidou positioning +5G communication according to claim 1, characterized in that:

the solar module (5.1) is used for receiving sunlight and converting the sunlight to form electric energy, a 100W single crystal solar panel (5) is adopted, a 12V10AH lithium battery and a charging controller are arranged in the solar module, the charging controller controls the charging of the lithium battery, the charging is automatically stopped after the lithium battery is fully charged, and the charging is started when the electric quantity is insufficient.

9. The asset visualization monitoring terminal based on Beidou positioning +5G communication according to claim 1, characterized in that:

the power supply module (10.1) is connected with the solar module (5.1) and the rechargeable battery, receives a 12V power supply of the solar module (5.1) and provides a working power supply for the terminal; when the electric quantity of the solar module (5.1) or the rechargeable battery is insufficient, the two power supplies can be switched, so that the power supply stability of the terminal equipment is ensured;

the rechargeable battery (14), the standby rechargeable battery (14) arranged in the terminal and having the capacity of 6000 milliamperes are connected with the power module (10.1) to provide a working power supply for the terminal; the rechargeable battery (14) is charged by connecting an external power supply;

the USB interface (9) is connected with the integrated circuit (13) and receives input equipment of an external UBS interface through the USB interface (9).

10. A method for an asset visualization monitoring terminal based on Beidou positioning and 5G communication is characterized by comprising the following steps: use of the device according to any of claims 1-9, comprising the steps of:

1) the asset visualization monitoring terminal based on Beidou positioning +5G communication is used for carrying out outdoor asset positioning and position sensing, an ARM9 processor (11) sends a control instruction to a 915Mhz radio frequency wireless communication module (3.1), the 915Mhz radio frequency wireless communication module (3.1) transmits a wireless radio frequency signal to form a wireless radio frequency induction and transmission network, and the radius of the coverage range of the outdoor network reaches 100 meters; after a wireless radio frequency network, a 915Mhz RFID tag on the asset equipment senses a radio frequency signal, starts radio frequency connection, sends a chip number in the 915Mhz RFID tag to a 915Mhz radio frequency wireless communication module (3.1) through the wireless radio frequency network, when the 915Mhz radio frequency wireless communication module (3.1) receives the chip number sent by the 915Mhz RFID tag, sends the chip number to an ARM9 processor (11), and after the ARM9 processor (11) receives the chip number of the 915Mhz RFID tag, the calculation processing is carried out to remove repeated chip numbers and inquire and contrast the asset equipment information stored in a memory (12) to form a positioned asset equipment number and asset quantity;

2) the asset visualization monitoring terminal based on Beidou positioning +5G communication is used for carrying out indoor asset positioning and position sensing, an ARM9 processor (11) sends a control instruction to a 915Mhz radio frequency wireless communication module (3.1), the 915Mhz radio frequency wireless communication module (3.1) transmits a wireless radio frequency signal to form a wireless radio frequency induction and transmission network, and the radius of the coverage range of the indoor network reaches 30 meters; after a wireless radio frequency network, a 915Mhz RFID tag on the asset equipment senses a radio frequency signal, starts radio frequency connection, sends a chip number in the 915Mhz RFID tag to a 915Mhz radio frequency wireless communication module (3.1) through the wireless radio frequency network, when the 915Mhz radio frequency wireless communication module (3.1) receives the chip number sent by the 915Mhz RFID tag, sends the chip number to an ARM9 processor (11), and after the ARM9 processor (11) receives the chip number of the 915Mhz RFID tag, the calculation processing is carried out to remove repeated chip numbers and inquire and contrast the asset equipment information stored in a memory (12) to form a positioned asset equipment number and asset quantity;

3) the method comprises the steps that an asset visualization monitoring terminal based on Beidou positioning +5G communication uploads asset real-time position data, and positioned asset equipment numbers and asset quantity are obtained after indoor and outdoor assets are positioned; the terminal carries out Beidou coordinate positioning, an ARM9 processor (11) sends a control instruction to a Beidou positioning module (2.1), and the Beidou positioning module (2.1) starts a positioning function to obtain longitude and latitude coordinates of a Beidou satellite; the Beidou positioning module (2.1) sends the longitude and latitude coordinates to the ARM9 processor (11) to complete Beidou positioning of the asset position; the ARM9 processor (11) packages the Beidou positioning coordinate data, the positioned indoor/outdoor asset equipment numbers and the asset quantity together; after a data packet is formed, asset positioning data is sent;

4) the asset visualization monitoring terminal based on Beidou positioning and 5G communication sends asset position data, and the terminal sends packed positioning data to a receiving end of a fixed server through a 5G network; the ARM9 processor 11 sends a control instruction to the 5G communication module (4.1), the 5G communication module (4.1) establishes 5G communication network connection after being started, and the ARM9 processor (11) sends the packaged asset positioning data to a fixed server receiving end through the 5G communication module (4.1); the real-time positioning and dynamic monitoring of the assets are completed;

5) the asset visualization monitoring terminal based on Beidou positioning +5G communication carries out asset visualization positioning and asset position display, after the terminal obtains the positioned asset equipment number and asset quantity and Beidou coordinate positioning longitude and latitude data, an ARM9 processor (11) stores the data in a memory (12), the ARM9 processor (11) sends display information to a touch display screen (8), and the Beidou positioning coordinate, asset equipment details and asset quantity can be displayed on the touch display screen (8); the information, distribution position and quantity content of the indoor/outdoor assets can be checked through clicking operation on the touch display screen;

6) the method comprises the steps that on the basis of an asset visualization monitoring terminal of Beidou positioning +5G communication, after Beidou coordinate data and positioning asset data are sent to a fixed server receiving end, a server end program analyzes the data, wherein the analysis processing is to number received asset equipment, find corresponding asset equipment names in the program and receive the Beidou positioning coordinate data together; displaying asset coordinates and distribution conditions on the electronic map, and displaying asset details, asset information and asset quantity on the electronic map; completing the visual real-time monitoring of assets;

7) the asset visualization monitoring terminal based on Beidou positioning +5G communication carries out dynamic monitoring and abnormal change alarming, an ARM9 processor (11) sends a control instruction to a 915Mhz radio frequency wireless communication module (3.1), the 915Mhz radio frequency wireless communication module (3.1) transmits a radio frequency signal to form a radio frequency induction and transmission network, the radius of the coverage range of an indoor network reaches 30 meters, and the radius of the coverage range of an outdoor network reaches 100 meters; after a wireless radio frequency network, a 915Mhz RFID tag on the asset equipment senses a radio frequency signal, starts radio frequency connection, numbers of chips in the 915Mhz RFID tag are sent to a 915Mhz radio frequency wireless communication module (3.1) through the wireless radio frequency network, when the 915Mhz radio frequency wireless communication module (3.1) receives the numbers of the chips sent by the 915Mhz RFID tag, the numbers are sent to an ARM9 processor (11), and after the ARM9 processor (11) receives the numbers of the chips of the 915Mhz RFID tag, the calculation processing is carried out to remove repeated chip numbers to form positioned asset equipment numbers and asset quantity; the ARM9 processor 11 sends a read fund amount instruction to the memory (12), the memory (12) sends the internally stored fund amount to the ARM9 processor (11), the ARM9 processor (11) compares the asset amount sent by the memory (12) with the received asset amount of the removed duplicate chip number, and if the two amounts are consistent, the calculation formula is as follows: the number of assets in the storage device-the number of assets in the receiving device = 0, which indicates that the assets in the field are not changed, and the assets are all in the monitoring range;

if the two quantities are not consistent, calculating the asset change result (increasing/decreasing), and starting an asset abnormity alarm;

the calculation formula is as follows: the number of assets in the memory, the number of assets received is greater than 0, which indicates that the assets in the field are reduced and changed;

the calculation formula is as follows: number of assets in memory-number of assets received < 0, indicating that the assets in the field are increasing and changing;

an ARM9 processor (11) starts an abnormal alarm, an ARM9 processor (11) sends an instruction to a 5G communication module (4.1) to start an alarm information sending operation, and the 5G communication module (4.1) establishes network communication connection and is communicated with an alarm receiving end of a fixed server; ARM9 treater (11) sends alarm information to 5G communication module (4.1), and the alarm information content is:

asset reduction alarm content: "asset transition alarm + field name + asset reduction + reduction number (number of memory assets-number of receiving assets), please look over as soon as possible";

asset reduction increase content: "asset transition alarm + field name + asset increment + increment quantity (number of received assets-number of memory assets), please look over as soon as possible";

the 5G communication module (4.1) sends the alarm information to an alarm receiving end of the fixed server, and after the alarm receiving end receives the alarm information, the alarm information is sent to an administrator mailbox and a mobile phone in a mail and short message mode through an alarm program.

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