CN111784999A - Electric quantity use condition recording and detecting system for 5G network networking synchronous information - Google Patents

Abstract

The invention discloses an electric quantity use condition recording and detecting system of 5G network networking synchronous information, which relates to the technical field of battery monitoring and detection, in particular to an electric quantity use condition recording and detecting system of 5G network networking synchronous information, and comprises a terminal battery and a 5G networking module, wherein the terminal battery is electrically output and connected with the electric quantity detecting module through a wire, the electric quantity detecting module is electrically output and connected with an electric quantity feedback module through a wire, the 5G networking module is electrically output and connected with a detection center server through a wire, the 5G networking module is electrically input and connected with the electric quantity feedback module through a wire, the detection center server is electrically output and connected with the information synchronization module through a wire, and the information synchronization module is electrically output and connected with an object recording module through a wire. This electric quantity in service behavior record detecting system of 5G network networking synchronous information realizes the in service behavior of different terminal batteries of anytime and anywhere monitoring through the 5G internet, convenient and fast.

Description

Electric quantity use condition recording and detecting system for 5G network networking synchronous information

Technical Field

The invention relates to the technical field of electric quantity use record detection systems, in particular to an electric quantity use condition record detection system for 5G network networking synchronous information.

Background

The intelligent terminal is like a personal computer, has an independent operating system and an independent operating space, can be used for installing programs provided by third-party service providers such as software, games and navigation by a user, can realize wireless network access through a wireless network, has the characteristics of being excellent in operating system, capable of freely installing various types of software and the like, can be used for storing various data in the terminal and setting the terminal according to the requirements of the user, but has more and more intelligent terminals along with the improvement of the living standard of people, and under the condition, the management of the electric quantity of each terminal becomes a difficult problem, the number is large, the variety is various, and the inconvenience is brought to the life of people.

However, the number and the functions of the existing numerous intelligent terminals are more and more, under the condition, the management of the electric quantity of each terminal becomes a difficult problem, the number is various, the variety is complicated, and inconvenience is brought to the life of people.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a system for recording and detecting the electricity usage condition of 5G network networking synchronous information, which solves the problems that the quantity and the function of the existing numerous intelligent terminals are more and more, the management of the electricity of each terminal becomes a difficult problem, the quantity is various, the variety is complicated, and the inconvenience is brought to the life of people.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a 5G network networking synchronous information's electric quantity service behavior record detecting system, includes terminal battery and 5G networking module, the terminal battery passes through the wire and is connected with electric quantity detection module electrical output, and electric quantity detection module passes through the wire and is connected with electric quantity feedback module electrical output, 5G networking module passes through the wire and is connected with detection center server electrical output, and 5G networking module passes through the wire and is connected with electric quantity feedback module electrical input, detection center server passes through the wire and is connected with information synchronization module electrical output, and information synchronization module passes through the wire and is connected with object record module electrical output, object record module passes through the wire and is connected with display electrical output.

Optionally, the terminal battery, the electric quantity detection module and the 5G networking module are connected in series through a wire, and the electric quantity feedback module and the 5G networking module are connected in parallel through a wire.

Optionally, the electric quantity detection module includes a residual amount monitoring module, a battery usage record, a battery health monitoring module and a terminal storage module, the residual amount monitoring module is electrically output and connected with the battery usage record through a wire, the battery usage record is electrically output and connected with the battery health monitoring module through a wire, and the battery health monitoring module is electrically output and connected with the terminal storage module through a wire;

the allowance monitoring module, the battery service condition record and the battery health monitoring module are electrically connected in series through a lead, and the battery health monitoring module and the terminal storage module are electrically connected in parallel through a lead.

Optionally, the 5G networking module, the detection center server and the information synchronization module are electrically connected in series through a wire, and the information synchronization module, the object recording module and the display are electrically connected in series through a wire.

Optionally, the information synchronization module includes an identity authentication module, an authority acquisition module and an information acquisition module, the identity authentication module is electrically output and connected with the information acquisition module through a wire, and the authority acquisition module is electrically output and connected with the information acquisition module through a wire.

Optionally, the identity authentication module and the authority acquisition module are electrically connected in series through a wire, and the authority acquisition module and the information acquisition module are electrically connected in series through a wire.

Optionally, the object recording module includes a terminal identification module, a classification monitoring module, a classification storage module and a data collecting module, the terminal identification module is electrically connected with the classification monitoring module through a wire, the classification monitoring module is electrically connected with the classification storage module through a wire, and the classification storage module is electrically connected with the data collecting module through a wire.

Optionally, the terminal identification module, the classification monitoring module and the classification storage module are electrically connected in series through a wire, and the classification storage module and the data gathering module are electrically connected in series through a wire.

Optionally, the object recording module includes a first recording module, a first transceiver module, a second transceiver module, and a second recording module, where the first recording module is electrically connected to the first transceiver module, and the second recording module is electrically connected to the second transceiver module; the first transceiver module is in communication connection with the second transceiver module; the information synchronization module is electrically connected with the first recording module through a wire in an output mode, and the second recording module is electrically connected with the display through a wire in an output mode;

wherein the first recording module includes: the first recording control unit is used for recording the data packet sent by the information synchronization module; the first transceiver module periodically transmits the data packet to the second transceiver module according to the transmission time interval set by the transmission time adjusting unit; the abnormality processing unit reports abnormality to the second recording module when the abnormality processing unit detects that the state of the first recording control unit is abnormal, and sends the data packet received by the first recording module to the second receiving and sending module through the first receiving and sending module;

the first recording control unit also calculates the difference between the sending time of the first transceiving module sending the data packet and the receiving time of the second transceiving module receiving the data packet; the sending time length adjusting unit also corrects the sending time length interval of the first transceiver module through the difference of the time; the sending time length adjusting unit is further configured to: when the time length of the abnormality is not detected is longer, the longer the sending time interval of the first transceiver module is made to be;

the second recording module includes: the second recording control unit is used for recording the data packets periodically sent by the first transceiver module through the second transceiver module; and when the abnormality is received, immediately receiving the data packet sent by the first transceiver module through the second transceiver module.

Optionally, the method further includes: a battery life assessment alarm module, the battery life assessment alarm module comprising:

the temperature sensor is used for monitoring the environmental temperature of the environment where the terminal battery is located in real time;

a current detection unit for detecting the current of the terminal battery detected by the current detection unit;

control unit, alarm, control unit with temperature sensor, alarm, current detection unit electricity are connected, control unit is based on temperature sensor, current detection unit control the alarm reports to the police, including following step:

the method comprises the following steps: the control unit controls the terminal battery to discharge until the voltage of the terminal battery reaches a cut-off voltage;

the control unit calculates the health state index of the terminal battery according to the current environment temperature detected by the temperature sensor and the discharge current detected by the current detection unit, and the formula (1) and the formula (2):

wherein Q is the maximum available capacity of the terminal battery, β is an environmental temperature correction factor, and T is₁Current ambient temperature, T, detected for the temperature sensor₀I is the discharge current of the terminal battery detected by the current detection unit in the process of discharging to the cut-off voltage for presetting the ambient temperature, t₁To the discharge start time, t₂At the end of discharge, S is the state of health index of the terminal battery, Q₀Rated capacity for the terminal battery;

step two: the control unit calculates the remaining life of the terminal battery according to the first step and the formula (3):

wherein, L is the residual service life of the terminal battery, lambda is a terminal battery aging factor correction factor, S is a terminal battery health state index, alpha is a terminal battery capacity attenuation factor, and N is the terminal battery cycle number, namely the number of times that the terminal battery completes a complete charging cycle;

step three: the control unit compares the residual life of the terminal battery with a preset life reference value, when the residual life of the terminal battery is less than or equal to the preset life reference value, the controller controls the alarm to give an alarm, and when the residual life of the terminal battery is greater than the preset life reference value, the controller does not trigger the alarm.

The invention provides a system for recording and detecting the electric quantity use condition of 5G network networking synchronous information, which has the following beneficial effects:

1. this electric quantity service behavior record detecting system of 5G network networking synchronous information, through surplus monitoring module, battery service behavior record, the control to terminal battery electric quantity can be realized to battery health monitoring module and terminal storage module, surplus monitoring module can monitor the residual capacity of battery, the battery service behavior record can monitor the service behavior of the electric quantity of battery at different devices, the battery health monitoring module can monitor the health condition of battery, thereby learn the residual life of battery, terminal storage module can be preserved more than the control data.

2. This electric quantity use condition record detecting system of 5G network networking synchronizing information can make the system obtain the battery data of the terminal battery of electric quantity detection module department control through authentication module, authority acquisition module and information acquisition module, and authentication module can pass through the terminal battery of detection center server discernment and log in, and authority acquisition module can obtain the authority of control electric quantity detection module department, ensures the safety of system, and information acquisition module can obtain the data of electric quantity detection module department control.

3. This electric quantity service behavior record detecting system of 5G network networking synchronous information, can realize the system through object record module to the record of terminal battery control, terminal identification module can discern the different terminals of connection, avoid obscuring of recorded data, categorised different data of monitoring module can categorised discernment, categorised storage module can be with the categorised storage of the different data of monitoring, the data module that gathers can be with the data classification of categorised storage module department storage and feeds back to the user through the display.

4. This electric quantity service condition record detecting system of 5G network networking synchronizing information can realize the quick record and the processing of battery data through object record module, and first record control unit and second record control unit can carry out the quick record processing to data, and the sending frequency of first transceiver module can be adjusted in real time to the long regulating unit of sending duration, and the long regulating unit of sending duration does not detect unusual time length is longer, and the long interval is longer in the sending of first transceiver module for the record processing process of data is more intelligent.

Drawings

FIG. 1 is a schematic overall flow diagram of the present invention;

FIG. 2 is a schematic diagram of an internal flow of the electric quantity detection module according to the present invention;

FIG. 3 is a schematic diagram of an internal flow of an information synchronization module according to the present invention;

FIG. 4 is a schematic view of the internal flow of the object recording module according to the present invention;

FIG. 5 is a schematic flow diagram of an object recording module according to the present invention;

FIG. 6 is a schematic diagram of an internal flow of a first recording module according to the present invention;

FIG. 7 is a schematic diagram illustrating an internal flow of a second recording module according to the present invention.

In the figure: 1. a terminal battery; 2. an electric quantity detection module; 201. a margin monitoring module; 202. recording the service condition of the battery; 203. a battery health monitoring module; 204. a terminal storage module; 3. an electric quantity feedback module; 4. 5G networking module; 5. detecting a central server; 6. an information synchronization module; 601. an identity authentication module; 602. an authority acquisition module; 603. an information acquisition module; 7. an object recording module; 701. a terminal identification module; 702. a classified monitoring module; 703. a classified storage module; 704. a data summarization module; 705. a first recording module; 706. a first transceiver module; 707. a second transceiver module; 708. a second recording module; 7001. a first recording control unit; 7002. a transmission time length adjusting unit; 7003. an exception handling unit; 7004. a second recording control unit; 8. a display.

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.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 4, the present invention provides a technical solution: a recording and detecting system for electric quantity use condition of 5G network networking synchronous information comprises a terminal battery 1 and a 5G networking module 4, wherein the terminal battery 1 is electrically connected with an electric quantity detection module 2 through a lead, the electric quantity detection module 2 is electrically connected with an electric quantity feedback module 3 through a lead, the 5G networking module 4 is electrically connected with a detection center server 5 through a lead, the 5G networking module 4 is electrically connected with an electric quantity feedback module 3 through a lead, the terminal battery 1, the electric quantity detection module 2 and the 5G networking module 4 are electrically connected in series through leads, the electric quantity feedback module 3 and the 5G networking module 4 are electrically connected in parallel through leads, so that the electric quantity detection module 2 can detect the use condition of the terminal battery 1, and the electric quantity feedback module 3 can feed back data at the electric quantity detection module 2, the information connection of the terminal battery 1 and the detection center server 5 can be synchronized through the 5G networking module 4, the detection center server 5 is in electrical output connection with the information synchronization module 6 through a lead, the information synchronization module 6 is in electrical output connection with the object recording module 7 through a lead, the object recording module 7 is in electrical output connection with the display 8 through a lead, the 5G networking module 4, the detection center server 5 and the information synchronization module 6 are in electrical series connection through leads, and the information synchronization module 6, the object recording module 7 and the display 8 are in electrical series connection through leads, so that the information synchronization module 6 can monitor information of different terminal batteries 1 and feed back the information to a user through the display 8;

the electric quantity detection module 2 comprises a residual quantity monitoring module 201, a battery use condition record 202, a battery health monitoring module 203 and a terminal storage module 204, the residual quantity monitoring module 201 is electrically connected with the battery use condition record 202 through a lead, the battery use condition record 202 is electrically connected with the battery health monitoring module 203 through a lead, the battery health monitoring module 203 is electrically connected with the terminal storage module 204 through a lead, the residual quantity monitoring module 201, the battery use condition record 202 and the battery health monitoring module 203 are electrically connected in series through leads, the battery health monitoring module 203 and the terminal storage module 204 are electrically connected in parallel through leads, the residual quantity monitoring module 201, the battery use condition record 202, the battery health monitoring module 203 and the terminal storage module 204 can monitor the electric quantity of the terminal battery 1, and the residual quantity monitoring module 201 can monitor the residual quantity of the battery, the battery use condition record 202 can monitor the electric quantity of the battery, and the battery health monitoring module 203 can monitor the health condition of the battery in the use conditions of different devices, so that the remaining life of the battery can be known, and the terminal storage module 204 can store the monitoring data;

the information synchronization module 6 comprises an identity authentication module 601, a permission acquisition module 602 and an information acquisition module 603, the identity authentication module 601 is electrically connected with the information acquisition module 603 through a lead, the permission acquisition module 602 is electrically connected with the information acquisition module 603 through a lead, the identity authentication module 601 and the permission acquisition module 602 are electrically connected in series through a lead, the permission acquisition module 602 and the information acquisition module 603 are electrically connected in series through a lead, the identity authentication module 601, the permission acquisition module 602 and the information acquisition module 603 can enable the system to acquire the battery data of the terminal battery 1 monitored at the electric quantity detection module 2, the identity authentication module 601 can identify and monitor the terminal battery 1 through the detection center server 5, the permission acquisition module 602 can acquire the permission monitored at the electric quantity detection module 2 to ensure the safety of the system, the information acquisition module 603 can acquire data monitored by the electric quantity detection module 2;

the object recording module 7 comprises a terminal identification module 701, a classification monitoring module 702, a classification storage module 703 and a data collecting module 704, wherein the terminal identification module 701 is electrically connected with the classification monitoring module 702 through a conducting wire in an output manner, the classification monitoring module 702 is electrically connected with the classification storage module 703 through a conducting wire in an output manner, the classification storage module 703 is electrically connected with the data collecting module 704 through a conducting wire in an output manner, the terminal identification module 701, the classification monitoring module 702 and the classification storage module 703 are electrically connected in series through a conducting wire, the classification storage module 703 is electrically connected in series with the data collecting module 704 through a conducting wire, the terminal identification module 701 can identify different connected terminals to avoid confusion of recorded data, the classification monitoring module 702 can classify and identify different data, the classification storage module 703 can store the monitored different data in a classification manner, the data summarization module 704 is capable of summarizing the data stored at the classification storage module 703 and feeding it back to the user via the display 8.

In summary, in the electricity usage record detecting system of the 5G network networking synchronization information, when in use, the electricity detection module 2 detects the usage of the terminal battery 1, the electricity feedback module 3 can feed back the data at the electricity detection module 2, the 5G networking module 4 can synchronize the information connection between the terminal battery 1 and the detection center server 5, the remaining capacity monitoring module 201, the battery usage record 202, the battery health monitoring module 203 and the terminal storage module 204 can monitor the electricity of the terminal battery 1, the remaining capacity monitoring module 201 can monitor the remaining capacity of the battery, the battery usage record 202 can monitor the electricity of the battery in the usage of different devices, the battery health monitoring module 203 can monitor the health of the battery, so as to know the remaining life of the battery, and the terminal storage module 204 can store the monitoring data, meanwhile, the information synchronization module 6 can monitor information of different terminal batteries 1 and feed back the information to a user through the display 8, the authentication module 601, the authority acquisition module 602 and the information acquisition module 603 can enable the system to acquire battery data of the terminal battery 1 monitored by the electric quantity detection module 2, the authentication module 601 can identify the terminal battery 1 through the detection center server 5 and log in the terminal battery 1, the authority acquisition module 602 can acquire authority of the electric quantity detection module 2, safety of the system is guaranteed, the information acquisition module 603 can acquire different terminals which can be identified and connected by the data terminal identification module 701 monitored by the electric quantity detection module 2, confusion of recorded data is avoided, the classification monitoring module 702 can classify and identify different monitored data, the classification storage module 703 can classify and store the different monitored data, and the data summarization module 704 can classify and summarize the data stored in the classification storage module 703 and feed back the summarized data through the display 8 And feeding back to the user.

In one embodiment, as shown in fig. 5, the object recording module 7 includes a first recording module 705, a first transceiver module 706, a second transceiver module 707, and a second recording module 708, where the first recording module 705 is electrically connected to the first transceiver module 706, and the second recording module 708 is electrically connected to the second transceiver module 707; the first transceiver module 706 is in communication connection with the second transceiver module 707; the information synchronization module 6 is electrically connected with the first recording module 705 through a conducting wire in an output mode, and the second recording module 708 is electrically connected with the display 8 through a conducting wire in an output mode; preferably, the first recording module 705 is also electrically connected to the display 8 through a wire;

wherein the first recording module 705 comprises: a first recording control unit 7001, configured to perform recording processing on the data packet sent by the information synchronization module 6; the sending duration adjusting unit 7002, the first transceiving module 706 sends the data packets to the second transceiving module 707 periodically according to the sending duration interval set by the sending duration adjusting unit 7002; an abnormality processing unit 7003, configured to report an abnormality to the second recording module 708 when the abnormality processing unit 7003 detects that the state of the first recording control unit 7001 is abnormal, and send the data packet received by the first recording module 705 to the second transmitting/receiving module 707 through the first transmitting/receiving module 706;

the first recording control unit 7001 further calculates a difference between the transmission time at which the first transceiving module 706 transmits the packet and the reception time at which the second transceiving module 707 receives the packet; the transmission duration adjustment unit 7002 further corrects the transmission duration interval of the first transceiver module 706 through the difference of the time; the transmission duration adjustment unit 7002 is further configured to: when the time length of the abnormality is not detected is longer, the longer the transmission time interval of the first transceiver module 706 is made;

the second recording module 708 includes: a second recording control unit 7004 that performs recording processing on the data packets periodically transmitted by the first transceiver module 706 through the second transceiver module 707; and when the abnormality is received, immediately receiving the data packet sent by the first transceiver module 706 through the second transceiver module 707.

The working principle and the beneficial effects of the technical scheme are as follows: the first recording control unit 7001 in the object recording module 7 records the data packet sent by the information synchronization module 6, and sends the data packet recorded by the first recording module 705 to the second transceiving module 707 through the first transceiving module 706, so that the second recording control unit 7004 records the data packet periodically sent by the first transceiving module 706 through the second transceiving module 707, thereby reducing the space occupation of the first recording module and ensuring that the first recording module has a large enough space to record the data packet sent by the information synchronization module;

meanwhile, the first recording control unit 7001 calculates a difference between a transmission time at which the first transceiver module 706 transmits a data packet and a reception time at which the second transceiver module 707 receives the data packet, and the transmission duration adjustment unit 7002 corrects the transmission duration interval of the first transceiver module 706 according to the difference between the times, so as to correct the transmission duration interval according to the real-time reception time of the first transceiver module by the second transceiver module, thereby ensuring that the second transceiver module reliably receives the data packet;

the abnormality processing unit 7003 detects a state of the first recording control unit 7001, reports an abnormality to the second recording module 708 when detecting that the state of the first recording control unit 7001 is abnormal, and sends a data packet received by the first recording module 705 to the second transceiving module 707 through the first transceiving module 706; according to the technical scheme, when the first recording control unit is abnormal, the data packet received by the first recording module is sent to the second recording module in time, so that reliable recording of the data packet is guaranteed.

The sending duration adjusting unit 7002 can also adjust a sending duration interval according to the detection condition of the abnormality processing unit 7003, and the longer the duration of the abnormality which is not detected is, the longer the sending duration interval of the first transceiving module 706 is; so that the transmission time interval is adapted to the state of the exception handling unit. And the technical scheme makes the recording and processing process of the data more intelligent.

In one embodiment, further comprising: a battery life assessment alarm module, the battery life assessment alarm module comprising:

the temperature sensor is used for monitoring the environmental temperature of the environment where the terminal battery is located in real time;

a current detection unit for detecting the current of the terminal battery detected by the current detection unit;

control unit, alarm, control unit with temperature sensor, alarm, current detection unit electricity are connected, control unit is based on temperature sensor, current detection unit control the alarm reports to the police, including following step:

the method comprises the following steps: the control unit controls the terminal battery to discharge until the voltage of the terminal battery reaches a cut-off voltage;

the control unit calculates the health state index of the terminal battery according to the current environment temperature detected by the temperature sensor and the discharge current detected by the current detection unit, and the formula (1) and the formula (2):

wherein Q is the maximum available capacity of the terminal battery, β is an environmental temperature correction factor, and T is₁Current ambient temperature, T, detected for the temperature sensor₀I is the discharge current of the terminal battery detected by the current detection unit in the process of discharging to the cut-off voltage for presetting the ambient temperature, t₁To the discharge start time, t₂At the end of discharge, S is the state of health index of the terminal battery, Q₀Rated capacity for the terminal battery;

step two: the control unit calculates the remaining life of the terminal battery according to the first step and the formula (3):

wherein, L is the residual service life of the terminal battery, lambda is a terminal battery aging factor correction factor, S is a terminal battery health state index, alpha is a terminal battery capacity attenuation factor, and N is the terminal battery cycle number, namely the number of times that the terminal battery completes a complete charging cycle;

step three: the control unit compares the residual life of the terminal battery with a preset life reference value, when the residual life of the terminal battery is less than or equal to the preset life reference value, the controller controls the alarm to give an alarm, and when the residual life of the terminal battery is greater than the preset life reference value, the controller does not trigger the alarm.

The working principle and the beneficial effects of the technical scheme are as follows: according to the technical scheme, firstly, the control unit controls the terminal battery to discharge until the voltage of the terminal battery reaches the cut-off voltage, and the control unit calculates the current maximum available capacity of the terminal battery according to a formula (1) according to multiple parameters including the current environment temperature detected by the temperature sensor, the discharge current detected by the current detection unit, the discharge starting time, the discharge ending time, the environment temperature correction factor and the preset environment temperature, so that the calculation result is more reliable, and the current health state index of the terminal battery is calculated based on the current maximum available capacity and the formula (2); then the control unit calculates the remaining life of the terminal battery according to a formula (3), and the capacity attenuation factor, the battery aging factor, the current health factor and the current charging cycle number of the terminal battery are considered in the formula (3), so that the calculation result is more reliable; and finally, comparing the residual life of the terminal battery with a preset life reference value, when the residual life of the terminal battery is less than or equal to the preset life reference value, controlling the alarm to give an alarm by the controller, reminding a terminal user to replace the battery, reminding the terminal user to replace the battery by setting the alarm, enabling the terminal battery to be in a good working state and avoiding damaging terminal equipment.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a 5G network networking synchronous information's electric quantity service behavior record detecting system, includes terminal battery (1) and 5G networking module (4), its characterized in that: terminal battery (1) is connected through wire and electric quantity detection module (2) electrical output, and electric quantity detection module (2) is connected through wire and electric quantity feedback module (3) electrical output, 5G networking module (4) is connected through wire and detection center server (5) electrical output, and 5G networking module (4) is connected through wire and electric quantity feedback module (3) electrical input, detection center server (5) is connected through wire and information synchronization module (6) electrical output, and information synchronization module (6) is connected through wire and object record module (7) electrical output, object record module (7) is connected through wire and display (8) electrical output.

2. The system for detecting the electric quantity usage record of the 5G network networking synchronous information according to claim 1, wherein: terminal battery (1), electric quantity detection module (2) and 5G networking module (4) pass through wire electrical property series connection, and electric quantity feedback module (3) and 5G networking module (4) pass through wire electrical property parallel connection.

3. The system for detecting the electric quantity usage record of the 5G network networking synchronous information according to claim 1, wherein: the electric quantity detection module (2) comprises a residual quantity monitoring module (201), a battery use condition record (202), a battery health monitoring module (203) and a terminal storage module (204), wherein the residual quantity monitoring module (201) is electrically output and connected with the battery use condition record (202) through a lead, the battery use condition record (202) is electrically output and connected with the battery health monitoring module (203) through a lead, and the battery health monitoring module (203) is electrically output and connected with the terminal storage module (204) through a lead;

the residual quantity monitoring module (201), the battery service condition record (202) and the battery health monitoring module (203) are electrically connected in series through a lead, and the battery health monitoring module (203) and the terminal storage module (204) are electrically connected in parallel through a lead.

4. The system for detecting the electric quantity usage record of the 5G network networking synchronous information according to claim 1, wherein: the 5G networking module (4), the detection center server (5) and the information synchronization module (6) are electrically connected in series through wires, and the information synchronization module (6), the object recording module (7) and the display (8) are electrically connected in series through wires.

5. The system for detecting the electric quantity usage record of the 5G network networking synchronous information according to claim 1, wherein: the information synchronization module (6) comprises an identity authentication module (601), an authority acquisition module (602) and an information acquisition module (603), wherein the identity authentication module (601) is electrically connected with the information acquisition module (603) in an output mode through a lead, and the authority acquisition module (602) is electrically connected with the information acquisition module (603) in an output mode through a lead.

6. The system for detecting the electric quantity usage record of the 5G network networking synchronous information according to claim 5, wherein: the identity authentication module (601) and the authority acquisition module (602) are electrically connected in series through a lead, and the authority acquisition module (602) and the information acquisition module (603) are electrically connected in series through a lead.

7. The system for detecting the electric quantity usage record of the 5G network networking synchronous information according to claim 1, wherein: the object recording module (7) comprises a terminal identification module (701), a classification monitoring module (702), a classification storage module (703) and a data collecting module (704), wherein the terminal identification module (701) is electrically output and connected with the classification monitoring module (702) through a lead, the classification monitoring module (702) is electrically output and connected with the classification storage module (703) through a lead, and the classification storage module (703) is electrically output and connected with the data collecting module (704) through a lead.

8. The system according to claim 7, wherein the system is further configured to record and detect the power usage of the 5G networking synchronization information: the terminal identification module (701), the classification monitoring module (702) and the classification storage module (703) are electrically connected in series through a lead, and the classification storage module (703) and the data gathering module (704) are electrically connected in series through a lead.

9. The system for detecting the electric quantity usage record of the 5G network networking synchronous information according to claim 1, wherein:

the object recording module (7) comprises a first recording module (705), a first transceiver module (706), a second transceiver module (707), and a second recording module (708), wherein the first recording module (705) is electrically connected with the first transceiver module (706), and the second recording module (708) is electrically connected with the second transceiver module (707); the first transceiver module (706) and the second transceiver module (707) are in communication connection; the information synchronization module (6) is electrically connected with the first recording module (705) in an output mode through a conducting wire, and the second recording module (708) is electrically connected with the display (8) in an output mode through a conducting wire;

wherein the first recording module (705) comprises: a first recording control unit (7001) for performing recording processing on the data packet sent by the information synchronization module (6); the first transceiving module (706) periodically transmits the data packets to the second transceiving module (707) according to the transmission duration interval set by the transmission duration adjusting unit (7002); an abnormality processing unit (7003) that reports an abnormality to the second recording module (708) and sends a packet received by the first recording module (705) to the second transmitting/receiving module (707) via the first transmitting/receiving module (706) when the abnormality processing unit (7003) detects an abnormality in the status of the first recording control unit (7001);

the first recording control unit (7001) further calculates a difference between a transmission time at which the first transceiving module (706) transmits a packet and a reception time at which the second transceiving module (707) receives a packet; the transmission duration adjustment unit (7002) further corrects the transmission duration interval of the first transceiver module (706) by the time difference; the transmission duration adjustment unit (7002) is further configured to: making the transmission duration interval of the first transceiving module (706) longer the length of time that the anomaly is not detected;

the second recording module (708) comprises: a second recording control unit (7004) that performs recording processing on the data packets periodically transmitted by the first transceiver module (706) via the second transceiver module (707); and when the abnormity is received, the data packet sent by the first transceiver module (706) is immediately received through the second transceiver module (707).

10. The system for detecting the electric quantity usage record of the 5G network networking synchronous information according to claim 1, wherein:

further comprising: a battery life assessment alarm module, the battery life assessment alarm module comprising:

the temperature sensor is used for monitoring the environmental temperature of the environment where the terminal battery is located in real time;

a current detection unit for detecting the current of the terminal battery detected by the current detection unit;

control unit, alarm, control unit with temperature sensor, alarm, current detection unit electricity are connected, control unit is based on temperature sensor, current detection unit control the alarm reports to the police, including following step:

the method comprises the following steps: the control unit controls the terminal battery to discharge until the voltage of the terminal battery reaches a cut-off voltage;

the control unit calculates the health state index of the terminal battery according to the current environment temperature detected by the temperature sensor and the discharge current detected by the current detection unit, and the formula (1) and the formula (2):

wherein Q is the maximum available capacity of the terminal battery, β is an environmental temperature correction factor, and T is₁Current ambient temperature, T, detected for the temperature sensor₀I is the discharge current of the terminal battery detected by the current detection unit in the process of discharging to the cut-off voltage for presetting the ambient temperature, t₁To the discharge start time, t₂At the end of discharge, S is the state of health index of the terminal battery, Q₀Rated capacity for the terminal battery;

step two: the control unit calculates the remaining life of the terminal battery according to the first step and the formula (3):

wherein L is the residual service life of the terminal battery, lambda is a terminal battery aging factor correction factor, S is a terminal battery health state index, alpha is a terminal battery capacity attenuation factor, and N is a terminal battery cycle number;

step three: the control unit compares the residual life of the terminal battery with a preset life reference value, when the residual life of the terminal battery is less than or equal to the preset life reference value, the controller controls the alarm to give an alarm, and when the residual life of the terminal battery is greater than the preset life reference value, the controller does not trigger the alarm.

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