CN110718720A - Battery monitoring management system, management service method, platform and medium - Google Patents

Abstract

The invention provides a battery monitoring and management system, a management service method, a platform and a medium, wherein the battery monitoring and management system comprises: at least one battery monitoring terminal; each battery monitoring terminal is connected with a battery and is used for monitoring relevant information of the battery; and the battery management service platform is in communication connection with the at least one battery monitoring terminal and is used for performing unified monitoring management on the relevant information of the battery reported by each battery monitoring terminal. The battery monitoring and management system can fully utilize the advantages of the technology of the Internet of things, realize 24-hour monitoring of the battery state information all day and report the monitoring data to the management personnel in real time, and is favorable for enterprises to efficiently and conveniently manage the battery.

Description

Battery monitoring management system, management service method, platform and medium

Technical Field

The invention belongs to the field of monitoring management, relates to a monitoring management system, and particularly relates to a battery monitoring management system, a management service method, a management service platform and a medium.

Background

At present, batteries are widely applied to various industries and fields, and application scenes of the batteries are very common, such as forklifts, electric vehicles, communication base stations and the like. However, the batteries are often used illegally and maintained untimely, and the problems of battery liquid shortage, liquid leakage, overlarge current, overhigh temperature and the like are easily caused under the conditions, so that the service life of the batteries is reduced, and the normal use of equipment is seriously influenced to cause economic loss, so that it is very important to accurately grasp the state of the lead-acid batteries in time in the use process of the batteries. Currently, most of the monitoring and management work for the battery is completed through unscheduled inspection by a manager. The abnormal state of the battery cannot be found in time in the mode, and then great problems are brought to the battery management work of enterprises.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, an object of the present invention is to provide a battery monitoring and management system, a management service method, a platform and a medium, which are used to solve the problem in the prior art that the battery status abnormality cannot be found in time.

To achieve the above and other related objects, the present invention provides a battery monitoring and management system, including: at least one battery monitoring terminal; each battery monitoring terminal is connected with a battery and is used for monitoring relevant information of the battery; and the battery management service platform is in communication connection with the at least one battery monitoring terminal and is used for performing unified monitoring management on the relevant information of the battery reported by each battery monitoring terminal.

In an embodiment of the present invention, the battery monitoring terminal is configured to detect information related to a battery, and includes: the measuring module is provided with an acid-proof structure and is used for measuring relevant information of the battery; the information processing module is used for processing the relevant information of the battery; and one end of the wire body is connected with the measuring module, the other end of the wire body is connected with the information processing module, and the wire body is used for transmitting the relevant information of the battery output by the measuring module to the information processing module.

The invention also provides a battery management service method, which comprises the following steps: receiving and storing the relevant information of the battery reported by each battery monitoring terminal; the related information of the battery comprises identity information, state information, geographical position information or/and a motion track of the battery; monitoring and managing the relevant information of each battery, and monitoring the running condition of each battery; the operation condition of the battery comprises the relevant information of the battery and the operation information of the equipment correspondingly bound with the battery; and displaying the relevant information of the battery and the operation information of the equipment correspondingly bound with the battery in a list mode or a map mode.

In an embodiment of the present invention, the battery management service method further includes: monitoring and managing the relevant information of each battery, and monitoring the alarm condition of each battery; the alarm condition comprises the alarm reason or/and the alarm level of the battery which generates the alarm; displaying alarm reasons or/and alarm levels of the battery in a list manner; and further displaying the alarm details or/and the alarm position of the battery in a mode of adding a hot spot in a list.

In an embodiment of the present invention, the battery management service method further includes: setting a geo-fence, and monitoring the activity range of a battery added into the geo-fence; sending an alarm when the activity range of the battery added into the geo-fence exceeds the range defined by the geo-fence; or setting alarm threshold parameters and giving an alarm to the battery exceeding the alarm threshold; the alarm comprises an internal alarm or/and an external alarm.

In an embodiment of the present invention, the battery management service method further includes: monitoring and managing the relevant information of each battery, and monitoring the contrast condition of each battery; the comparison condition comprises comparison of real-time monitoring data and historical monitoring data of the battery.

In an embodiment of the present invention, the battery management service method further includes: positioning and tracking corresponding batteries according to the identity information, state information, geographical position information or/and motion trail of each battery, and storing the positioning and tracking information of each battery; setting a battery track query entry for the positioning tracking information of each battery; the query entry comprises a query input box for at least one battery; track playing is carried out according to the query conditions received by the battery track query entrance; the query condition includes a battery number, a track playing time, or/and a start/end position of the track.

In an embodiment of the present invention, the battery management service method further includes: monitoring management of the corresponding battery is displayed to the corresponding enterprise according to a battery allocation request of the enterprise; or canceling and displaying the monitoring management of the corresponding battery to the corresponding enterprise according to the battery recycling request of the enterprise.

In an embodiment of the present invention, the battery management service method further includes: managing the battery monitoring terminal, wherein the managing comprises: and deleting the battery monitoring terminal or a measuring unit therein, or/and blackening the battery monitoring terminal.

The present invention also provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the above-described battery management service method.

The invention also provides a battery management service platform, comprising: a memory storing a computer program; the processor is in communication connection with the memory and executes the battery management service method when the computer program is called; and the platform communication module is in communication connection with the processor and is used for realizing the communication between the battery management service platform and an external battery monitoring terminal.

In an embodiment of the present invention, the battery management service platform is disposed at a PC or a mobile terminal.

As described above, the battery monitoring and management system, the battery management service method/platform and the medium according to the present invention have the following advantages:

firstly, the battery monitoring terminal adopted in the invention has good acid-proof and water-proof capabilities, can avoid the battery monitoring terminal from being corroded by acid liquor, effectively prolongs the service life of the battery monitoring terminal, and also enables the battery monitoring management system and the management service method to monitor and manage the battery in a severe environment.

Secondly, the battery management service platform of the invention utilizes the measuring module in the battery monitoring terminal to collect the relevant information of the battery, and the structure of the battery does not need to be changed in the whole monitoring and management process.

Thirdly, the battery management service method can realize monitoring and management of relevant information of the battery, and can realize functions of fault warning, geo-fencing, data comparison, trajectory tracking and the like. In addition, the battery management service platform can be presented to a user in a visual management interface mode, and all the functions can be completed through the visual management interface. Therefore, enterprises can utilize the battery management service platform to realize convenient and efficient monitoring and management of the battery.

Fourthly, the battery monitoring and management system and the management service method can fully utilize the advantages of the technology of the Internet of things, realize 24-hour all-day monitoring of the battery state information and report the monitoring data to management personnel in real time, and are beneficial to efficient and convenient management of the battery by enterprises.

Drawings

Fig. 1 is a schematic diagram illustrating functional modules of a battery monitoring and management system according to an embodiment of the present invention.

Fig. 2 is a schematic diagram illustrating an implementation structure of the battery monitoring terminal in the battery monitoring and management system according to an embodiment of the present invention.

Fig. 3 is a right side view of an information processing module of the battery monitoring terminal in the battery monitoring and management system according to an embodiment of the invention.

Fig. 4 is a schematic diagram illustrating an implementation structure of an information processing module of the battery monitoring terminal in the battery monitoring and management system according to an embodiment of the present invention.

Fig. 5 is a schematic view illustrating an assembly manner of the connection member of the battery monitoring terminal in the battery monitoring and management system according to an embodiment of the invention.

Fig. 6 is a schematic structural diagram of the connecting member of the battery monitoring terminal in the battery monitoring and management system according to an embodiment of the invention after assembly is completed.

Fig. 7 is a schematic diagram illustrating an implementation process of the battery management service method according to an embodiment of the invention.

Fig. 8 is a schematic diagram illustrating an implementation process of an alarm function in the battery management service method according to the present invention.

Fig. 9 is a schematic diagram illustrating an implementation structure of the battery management service platform according to an embodiment of the invention.

Description of the element reference numerals

1 Battery monitoring and management system

2 batteries

11 battery monitoring terminal

111 information processing module

1111 casing

1111a upper shell

1111b bottom case

1111c assembling hole

1111d first fixing hole

1112 attachment

1112a locating hole

1112b second fixing hole

1112c screw

1112d waterproof ring

1113 light guide column

1114 lens

112 wire body

1121 wire rod

1122 protective skin

1123 adapter

113 measurement module

1131 Current sensor

1132 temperature sensor

1133 liquid level sensor

1134 Voltage input port of Voltage detecting Unit

1135 supply line

114 communication module

1141 antenna

12 battery monitoring management platform

121 memory

122 processor

123 platform communication module

124 bus

S701 to S703

Steps S801 to S808

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic idea of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the type, quantity and proportion of the components in actual implementation may be changed freely, and the layout of the components may be more complicated.

Because the battery often has the condition such as use violating the regulations, maintenance untimely in the use, these condition cause the battery to lack liquid, weeping, electric current too big and temperature scheduling problem easily, and then lead to battery life to reduce, still can influence equipment normal use when serious and cause economic loss, consequently it is very important in time to grasp the lead-acid batteries state accurately in the use of battery. Currently, most of the monitoring and management work for the battery is completed through unscheduled inspection by a manager. The abnormal state of the battery cannot be found in time in the mode, and then great problems are brought to the battery management work of enterprises. In addition, the battery monitoring device is often harsh in environment during working, and even needs to be immersed in acid liquor under extreme conditions, which puts high requirements on the waterproof and acid-proof capabilities of the monitoring device. In view of these problems, the present invention provides a battery monitoring and management system, which includes: at least one battery monitoring terminal; each battery monitoring terminal is connected with a battery and is used for monitoring relevant information of the battery; and the battery management service platform is in communication connection with the at least one battery monitoring terminal and is used for performing unified monitoring management on the relevant information of the battery reported by each battery monitoring terminal.

Referring to fig. 1, a schematic diagram of functional modules of a battery monitoring and management system according to an embodiment of the invention is shown. The embodiment provides a battery monitoring and management system 1, which comprises at least one battery monitoring terminal 11 and a battery management service platform 12. The battery monitoring terminal 11 is connected to the battery 2 and configured to detect relevant information of the battery and report the relevant information of the battery to the battery monitoring and management system 1. The battery monitoring and management system 1 receives the relevant information of the battery and then carries out unified monitoring and management on the battery.

In an embodiment of the present invention, the battery monitoring terminal 11 is used for monitoring information related to a battery. Please refer to fig. 2, which is a schematic diagram illustrating an implementation structure of the battery monitoring terminal according to an embodiment of the present invention. As can be seen, the battery monitoring terminal 11 includes: an information processing module 111, a wire body 112, a measurement module 113, and a communication module 114. The measuring module 113 has an acid-proof structure for measuring the relevant information of the battery; the information processing module 111 is configured to process information related to the battery; one end of the wire body 112 is connected to the measurement module, and the other end is connected to the information processing module, and is configured to transmit the relevant information of the battery output by the measurement module to the information processing module.

The measurement module 113 is mainly used for measuring battery status information, including but not limited to battery current, voltage, temperature and sulfuric acid level. Therefore, the measurement module 113 is in direct contact with the lead-acid battery during operation, and some components thereof may even be in direct contact with the acid solution, so that the water resistance and acid resistance of the measurement module 113 are important. In this embodiment, the measurement module 113 is mainly designed to have an acid-proof structure.

The communication module 114 is connected to the information processing module, and configured to report the relevant information of the battery to the battery management service platform.

The wire body 112 is disposed between the measuring module 113 and the information processing module 111, and is configured to transmit the battery state information measured by the measuring module 113 to the information processing module 111.

The information processing module 111 is disposed around the lead-acid battery during operation, and is configured to receive the battery status information transmitted from the wire body 112 and process the battery status information, so as to obtain desired monitoring data. Referring to fig. 3, a right side view of the information processing module 111 in the present embodiment is shown.

In an embodiment of the present invention, the measuring module 113 includes a current sensor, a voltage input port of a voltage detecting unit, a temperature sensor, and a liquid level sensor. The measuring module 113 may select different numbers and different types of measuring units to obtain different state information of the battery according to actual needs, and the current sensor, the voltage input port of the voltage detecting unit, the temperature sensor and the liquid level sensor are the most common measuring units.

In an embodiment of the present invention, the acid-proof structure of the measurement module 113 is that the measurement module 113 has an acid-proof protection layer. Specifically, the acid-proof protective layer is realized by configuring a sealing layer or/and an isolation layer made of acid-proof material for part or all of the measuring units.

In an embodiment of the present invention, the acid-proof structure of the measuring module 113 is that the measuring module 113 is made of an acid-proof material, and the acid-proof material includes PVC, teflon, and the like.

In one embodiment of the present invention, the wire body includes a sensor wire, an input wire, and an output wire; one end of the wire is connected with the measuring module, and the other end of the wire is connected with the information processing module; the wire has an acid-resistant protective layer.

Referring to fig. 2, it can be seen that the wire body 112 includes a wire 1121, a protective sheath 1122, and an adapter 1123, wherein:

the wire 1121, which is a part of the wire body 112 responsible for information transmission, has one end connected to the information processing module 111 and the other end connected to the measurement module 113. Since the measuring module 113 is in direct contact with the lead-acid battery, the portion of the wire 1121 connected to the measuring module 113 should be also subjected to an acid-proof treatment, so as to improve the acid-proof capability of the wire and prolong the service life. Specifically, the acid-proof treatment refers to providing an acid-proof protective layer for the wire. Preferably, the entire wire 1121 has an acid-proof protective layer.

Still be provided with adapter 1123 on the wire 1121, adapter 1123 has waterproof and acid-proof ability, can effectively avoid the wire to receive the acidizing fluid corrosion in the switching department.

The protective sheath 1122 is located at one end of the wire body 112 connected to the information processing module 111, and on one hand, the protective sheath 1122 gathers the plurality of wires 1121 together and is connected to the information processing module 111, so that connection and management are facilitated; on the other hand, the wire 1121 is also protected to some extent.

In an embodiment of the invention, the information processing module 111 includes a housing 1111, and the housing 1111 employs a sealing structure to improve acid-proof and water-proof capabilities of the information processing module 111. Referring to fig. 2, it can be seen that the housing 1111 is located on the surface of the entire information processing module 111.

The information processing module 111 is disposed around the lead-acid battery during operation, and is not in direct contact with the acid solution under normal conditions, but acid mist and water vapor are inevitably present in the environment where the information processing module 111 is operated, and the information processing module 111 is also in direct contact with the acid solution under extreme conditions that the entire monitoring terminal 11 needs to be immersed in the acid solution. In order to prolong the service life of the battery monitoring terminal 11 and ensure that the whole battery monitoring terminal 11 can still work normally under the extreme conditions, in the embodiment, the information processing module 111 has a housing, and the housing adopts a sealing structure, so that acid liquid, acid mist and water vapor which may enter the information processing module are reduced, and the acid-proof capability of the information processing module is improved.

In an embodiment of the present invention, the casing includes a bottom casing and an upper casing, and the bottom casing and the upper casing are hermetically connected by an ultrasonic welding method. Ultrasonic welding is to utilize high-frequency vibration wave to transmit to two object surfaces that need the welded, under the circumstances of pressurization, makes two object surfaces rub each other and forms the fusing between the molecular layer, has advantages such as welding speed is fast, welding strength is high, the leakproofness is good. In this embodiment, utilize ultrasonic bonding will the drain pan is with carrying out sealing connection between the epitheca, can effectively promote the leakproofness of casing. In addition, the corresponding position of drain pan and epitheca still disposes the screw, can utilize the screw to strengthen the connection between the two to this reduces the influence that vibrations produced the casing.

Please refer to fig. 4, which is a schematic diagram illustrating an implementation structure of the information processing module of the battery monitoring terminal according to the present invention. As can be seen from the figure, the housing 1111 includes a bottom case 1111b and an upper case 1111 a.

In an embodiment of the present invention, the information processing module further includes a connecting component; the connecting piece is provided with a positioning hole and a second fixing hole; the surface of the shell is provided with an assembling hole and a first fixing hole; the positioning hole is matched and corresponds to the assembling hole; the second fixing hole is matched and corresponds to the first fixing hole; the wire body penetrates through the positioning hole and the assembling hole to enter the information processing module; the first fixing hole and the second fixing hole are sealed in a screw fixing manner.

Referring to fig. 4, it can be seen that the connecting member 1112 is configured with a positioning hole 1112a and a second fixing hole 1112 b.

Please refer to fig. 5, which is a schematic diagram illustrating an assembly manner of the connecting member of the battery monitoring terminal according to the embodiment. It can be seen from the figure that the surface of the housing 1111 is configured with a mounting hole 1111c and a first fixing hole 1111d, wherein the mounting hole 1111c is located to match with the positioning hole 1112a, and the first fixing hole 1111d is located to match with the second fixing hole 1112 b. The first fixing hole 1111d and the second fixing hole 1112b are fixed and sealed by a screw 1112 c.

Please refer to fig. 6, which is a schematic structural diagram of the connecting member of the battery monitoring terminal according to the present embodiment after the assembly is completed. As can be seen from fig. 4, 5 and 6, the wire body 112 enters the information processing module 111 after passing through the positioning hole 1112a and the fitting hole 1111 c.

In an embodiment of the present invention, the top end of the screw is sealed by a spot acid-proof sealant or/and a sealing ring. The point acid-proof sealant is used for sealing the top end of the screw exposed in the air by using the sealant after the screw is fixed. The sealing ring mode is to enhance the sealing performance of the first fixing hole and the second fixing hole by using a sealing ring.

In an embodiment of the present invention, a waterproof ring is disposed between the assembly hole and the wire body; the waterproof ring is used for improving the acid-proof capacity of the information processing module. Referring to fig. 5, it can be seen that the waterproof ring 1112d is disposed on the inner wall of the mounting hole 1111c, and the wire body 112 passes through the waterproof ring 1112d and enters the inside of the housing 1111. The waterproof ring has good waterproof and acid-proof capabilities, and can effectively prevent external acid liquid, acid mist and water vapor from entering the information processing module through the assembly hole, so that the acid-proof and waterproof capabilities of the information processing module are improved.

In an embodiment of the present invention, the information processing module further includes: the LED lamp is arranged in the shell and displays the battery state information through a luminous state; and the light guide column is arranged on the surface of the shell and used for transmitting the light emitted by the LED lamp to the surface of the shell.

In this embodiment, an LED lamp is disposed inside the information processing module, and the LED lamp displays battery status information through a light emitting status. In order to improve the sealing performance of the shell, the LED lamp is arranged inside the shell, and a user cannot directly observe the LED lamp. In order to present the light emitted by the LED lamp to the user, the light guide pillar is disposed on the surface of the housing. A light guide is a device that transmits light from a light source to another point at a distance from the light source with minimal loss, and light is transmitted inside the light guide by means of total internal reflection. The light guide bar is usually made of optical materials, such as: polycarbonate (PC), polymethyl methacrylate (PMMA). Referring to fig. 4, it can be seen that the light guiding rod 1113 is disposed on the surface of the housing 1111 and can transmit the light emitted from the LED lamp to the surface of the housing for the user to observe.

In an embodiment of the present invention, the information processing module further includes a lens; the lens set up in leaded light post top, paste locate the casing surface is used for promoting the leakproofness of casing. Referring to FIG. 4, it can be seen that the lens 1114 is disposed above the light guide 1113. In this embodiment, the lens 1114 and the light guide 1113 are bonded together by a 3M adhesive, thereby achieving a hermetic seal. In order to further enhance the sealing performance of the housing, the lens 1114 is attached to the surface of the housing 1111 by strong adhesive. In addition, the lens 1114 can also serve as a decorative feature.

In an embodiment of the invention, the wire body further includes a power supply line; one end of the power supply line is connected with the lead-acid battery, and the other end of the power supply line is connected with the information processing module and used for supplying power to the battery monitoring terminal. Specifically, the battery monitoring terminal has no battery therein, and can only be connected with an external power supply to supply power to the terminal. In this embodiment, the battery monitoring terminal is connected with the lead-acid battery through a power supply line, and can directly utilize the lead-acid battery to supply power for the battery monitoring terminal. The working current of the battery monitoring terminal is milliampere, and the lead-acid battery is hardly influenced.

In an embodiment of the present invention, the communication module includes an antenna. When the actual working position of the battery monitoring terminal is poor in communication condition or communication is interfered, the antenna can be placed at a position with good communication so as to realize communication with a battery management service platform, and therefore the application scene of the battery monitoring terminal is expanded.

The present invention also provides a battery management service method, please refer to fig. 7, which shows the implementation steps of the battery management service method in an embodiment, including:

s701, receiving and storing relevant information of the batteries reported by each battery monitoring terminal; the related information of the battery comprises identity information, state information, geographical position information or/and a motion track of the battery.

The battery monitoring terminal is responsible for acquiring relevant information of the battery and reporting the information in a wireless communication mode. The identity information is used for identifying information of the batteries, each battery corresponds to one identity information, and the identity information comprises the serial number, the delivery time, the batch number and the like of the batteries; the state information comprises but is not limited to the voltage, the current, the liquid level height, the temperature, the internal resistance, the electric quantity and the like of the battery, and is acquired by a measuring module of the monitoring terminal; and the geographic position information and the motion trail are acquired through a positioning module in the monitoring terminal.

S702, monitoring and managing the relevant information of each battery, and monitoring the running condition of each battery; the operation condition of the battery comprises the relevant information of the battery and the operation information of the equipment correspondingly bound with the battery.

In the process of monitoring the operation condition of each battery, a user can select different modes to monitor the batteries according to requirements: on the monitoring object, a user can select to monitor all batteries or select a part of batteries, such as old batteries and fault frequent batteries; at the monitoring time, the user can select to monitor the battery for 24 hours all day, and also can select a specific time period to monitor the battery. In addition, the user can randomly check the battery at irregular time.

The equipment correspondingly bound with the battery comprises equipment powered by the battery, such as a forklift, base station internal equipment and the like, and a user can acquire information of the battery, such as charging and discharging frequency, working time and the like by monitoring the running information of the equipment, so that a basis is provided for better managing the battery.

And S703, displaying the relevant information of the battery and the running information of the equipment correspondingly bound with the battery in a list mode or a map mode.

The user can select a list or a map mode to compare the relevant information of the battery and the running information of the equipment correspondingly bound with the battery, wherein the list mode can conveniently compare different batteries, and the map mode can more intuitively display the geographical position information of the battery.

In an embodiment of the present invention, the battery management service method includes: monitoring and managing the relevant information of each battery, and monitoring the alarm condition of each battery; the alarm condition comprises the alarm reason or/and the alarm level of the battery which generates the alarm; displaying alarm reasons or/and alarm levels of the battery in a list manner; and further displaying the alarm details or/and the alarm position of the battery in a mode of adding a hot spot in a list.

Referring to fig. 8, a schematic diagram of an implementation process of an alarm function in the battery management service method according to this embodiment is shown, which includes the following specific steps:

s801, setting alarm parameters. The user selects alarm parameters and alarm threshold values according to actual requirements, wherein the alarm parameters include but are not limited to one or more of temperature, liquid level height, current and voltage. Each alarm parameter has a corresponding alarm threshold value, and the alarm threshold value is a system default value or a user-defined value.

S802, monitoring and managing the relevant information of each battery. And acquiring the information of the battery reported by the battery monitoring terminal and analyzing and processing the information. The related information of the battery can be acquired in real time or acquired at regular intervals.

And S803, judging whether the battery has an alarm or not. Judging whether the battery has an alarm at present according to the acquired battery related information and an alarm threshold value: if the selected alarm parameter value does not reach the alarm threshold value, no alarm is sent out and monitoring is continued; if the set alarm parameter reaches or exceeds the alarm threshold, it is determined that there is an abnormality currently and step S804 is performed.

S804, displaying the alarm reason or/and the alarm level of the battery in a list mode. When an alarm occurs, the alarm reason or/and the alarm level are/is displayed in a list mode, the display content includes but is not limited to identity information of the battery, position information of the battery, the alarm reason of the battery and/or the alarm level of the battery, and different alarm levels are distinguished in different colors.

And S805, further displaying the alarm details or/and the alarm position of the battery in a mode of adding a hot spot in the list. After the alarm information is simply processed and primarily analyzed and is presented in a list form, a hot spot identifier is added to the alarm information, and when a manager selects the hot spot identifier, the detailed condition of the alarm information is further displayed in a pop-up window or other modes, for example: ambient environment information of the battery, historical failure information, recommended processing methods, and the like.

And S806, sending alarm information to the user. The mode of sending the alarm information to the user comprises one or more of short message reminding, telephone reminding, mail reminding and APP message reminding. The alarm information comprises alarm battery identity information, alarm reasons, alarm elimination suggestions and the like.

S807, the user checks the alarm battery to eliminate the factors causing the alarm. For example, after the user receives the liquid level alarm, the liquid can be replenished to the lead-acid battery at the first time, so that the damage to the service life of the lead-acid battery due to too low liquid level can be prevented.

And S808, releasing the alarm. When the user eliminates the factors causing the alarm, the related parameters of the battery are recovered to be normal, and the alarm can be automatically released; the user may also manually disarm the alert after the problem with the alert battery has been addressed.

In an embodiment of the present invention, the battery management service method further includes: setting a geo-fence, and monitoring the activity range of a battery added into the geo-fence; sending an alarm when the activity range of the battery added into the geo-fence exceeds the range defined by the geo-fence; or setting alarm threshold parameters and giving an alarm to the battery exceeding the alarm threshold; the alarm comprises an internal alarm or/and an external alarm.

Specifically, the geofence is a virtual grid established on a map, and a battery joining the geofence can be monitored and managed through the virtual grid, and the monitored and managed information includes internal information and external information. The external information refers to the geographic position, the motion track, the moving range and the like of the battery, and if the battery is close to the edge of the fence or leaves the fence system in the monitoring process of the external information, an external alarm is sent out and is mainly used for managing the moving range of the battery and preventing burglary. The internal information refers to internal state parameter information of the battery, the system can send an internal alarm if the state parameter reaches or exceeds an alarm threshold value in the monitoring process of the internal information, the state parameter comprises current, voltage, liquid level height and temperature, and the internal alarm is mainly used for monitoring the health condition of the battery. In addition, the user can reset the geo-fences and can also choose to add or remove a certain geo-fence from a specific battery according to the needs of the user.

In an embodiment of the present invention, the battery management service method further includes: monitoring and managing the relevant information of each battery, and monitoring the contrast condition of each battery; the comparison condition comprises comparison of real-time monitoring data and historical monitoring data of the battery. The comparison can be carried out on the states of different batteries at the same time, and also can be carried out on the states of the same battery at different times.

Specifically, comparing the states of different batteries at the same time is beneficial to finding out the abnormal condition of a certain battery in time, so as to inform the user in time to take measures to avoid the battery from malfunctioning, for example: the related information of the batteries in the same batch at the same time is compared, and the temperature of a certain battery is always higher than that of other batteries, so that the working mode of the battery is abnormal, a user can check the battery and timely eliminate the abnormal condition, and the battery is prevented from being broken down. The comparison of the states of the same battery at different moments can be used for helping a user to find out the cause of the fault in time when the battery fails, for example: when a certain battery has a fault in the working process, a user can compare the relevant information of the battery when the fault occurs with the relevant information of the battery before the fault occurs, so that abnormal parameters can be timely and accurately found out, and the reason for causing the fault can be further found out.

In an embodiment of the present invention, the battery management service method further includes: positioning and tracking corresponding batteries according to the identity information, state information, geographical position information or/and motion trail of each battery, and storing the positioning and tracking information of each battery; setting a battery track query entry for the positioning tracking information of each battery; the query entry comprises a query input box for at least one battery; track playing is carried out according to the query conditions received by the battery track query entrance; the query condition includes a battery number, a track playing time, or/and a start/end position of the track.

In an embodiment of the present invention, the battery management service method further includes: monitoring management of the corresponding battery is displayed to the corresponding enterprise according to a battery allocation request of the enterprise; or canceling and displaying the monitoring management of the corresponding battery to the corresponding enterprise according to the battery recycling request of the enterprise.

Specifically, an upstream manager of the battery can use the battery management service method described in this embodiment to achieve efficient management of the battery.

The upstream manager may distribute the battery to a plurality of different downstream managers based on actual demand. The downstream manager can request the upstream manager to open the monitoring management authority of the corresponding battery, so that the downstream manager does not need to reconstruct a battery management system, and the battery can be monitored and managed after being obtained, thereby saving time and cost; and an upstream manager can also master the distributed battery information in real time, so that the subsequent maintenance and recovery are facilitated.

The upstream manager can also recycle the battery according to the request of the downstream manager, and at the moment, the downstream manager can be prevented from continuously acquiring the battery information only by directly canceling the monitoring management authority of the corresponding battery by using the battery management service method, so that the operation is simple and convenient.

Particularly, the upstream manager is a battery manufacturer, the downstream manager is an enterprise using the battery, and the battery manufacturer can use the battery management service method to realize the lifetime monitoring and tracking of the battery.

In an embodiment of the present invention, the battery management service method further includes: managing the battery monitoring terminal, wherein the managing comprises: and deleting the battery monitoring terminal or a measuring unit therein, or/and blackening the battery monitoring terminal.

Specifically, deleting the battery monitoring terminal or the measurement unit therein refers to: when the unnecessary measuring unit exists, the measuring unit can be directly deleted; the positioning module can be deleted when the geographical position information of the battery is not required to be acquired; if necessary, the whole battery monitoring terminal can be directly deleted.

The battery monitoring terminal is blackened: when the problems of arrearage and the like occur, a manager can directly blacken the corresponding battery monitoring terminal on the battery management service platform; when the battery monitoring terminal is blacked out, a user cannot acquire any information from a battery management service platform and cannot manage the battery monitoring terminal; after the reason for causing the battery monitoring terminal to be blackened is eliminated, the manager can cancel blackened of the corresponding battery monitoring terminal through the battery management service platform, the battery monitoring terminal can work normally, and the user can monitor and manage the battery of the user.

The blackening or deleting process can be directly completed on a battery management service platform without changing the structure of the battery monitoring terminal.

The present invention also provides a computer-readable storage medium having stored thereon a computer program capable, when executed by a processor, of performing the steps of the battery management service method.

The invention also provides a battery management service platform. Referring to fig. 9, a schematic structural diagram of the battery management service platform in an embodiment is shown, and as can be seen from the diagram, the battery management service platform 12 includes a memory 121, a processor 122 and a platform communication module 123 which are connected by a bus. Wherein, the memory 121 is used for storing a computer program; the processor 122, when calling the computer program, executes the battery management service method described in the above method embodiment; the platform communication module 123 is used for realizing communication between the battery management service platform and an external battery monitoring terminal.

In an embodiment of the present invention, the battery management service platform is disposed at a PC or a mobile terminal.

The protection scope of the battery management service method according to the present invention is not limited to the execution sequence of the steps illustrated in the embodiment, and all the solutions implemented by the steps addition, subtraction, and step replacement in the prior art according to the principles of the present invention are included in the protection scope of the present invention.

The present invention also provides a battery management service platform, and the battery management service method can implement the battery management service method of the present invention, but the implementation apparatus of the battery management service method of the present invention includes, but is not limited to, the structure of the battery management service method recited in this embodiment, and all the structural modifications and substitutions of the prior art made according to the principle of the present invention are included in the protection scope of the present invention. In summary, the battery monitoring management system and the service method according to the present invention have the following advantages:

firstly, the battery monitoring terminal adopted in the invention has good acid-proof and water-proof capabilities, can avoid the battery monitoring terminal from being corroded by acid liquor, effectively prolongs the service life of the battery monitoring terminal, and also enables the battery monitoring management system and the management service method to monitor and manage the battery in a severe environment.

Secondly, the battery management service platform of the invention utilizes the measuring module in the battery monitoring terminal to collect the relevant information of the battery, and the structure of the battery does not need to be changed in the whole monitoring and management process.

Thirdly, the battery management service method can realize monitoring and management of relevant information of the battery, and can realize functions of fault warning, geo-fencing, data comparison, trajectory tracking and the like. In addition, the battery management service platform can be presented to a user in a visual management interface mode, and all the functions can be completed through the visual management interface. Therefore, enterprises can utilize the battery management service platform to realize convenient and efficient monitoring and management of the battery.

Fourthly, the battery monitoring and management system and the management service method can fully utilize the advantages of the technology of the Internet of things, realize 24-hour all-day monitoring of the battery state information and report the monitoring data to management personnel in real time, and are beneficial to efficient and convenient management of the battery by enterprises.

Therefore, the invention effectively overcomes various defects in the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (12)

1. A battery monitoring and management system, comprising:

at least one battery monitoring terminal; each battery monitoring terminal is connected with a battery and is used for monitoring relevant information of the battery;

and the battery management service platform is in communication connection with the at least one battery monitoring terminal and is used for performing unified monitoring management on the relevant information of the battery reported by each battery monitoring terminal.

2. The battery monitoring and management system according to claim 1, wherein the battery monitoring terminal is configured to detect information related to a battery, and includes:

the measuring module is provided with an acid-proof structure and is used for measuring relevant information of the battery;

the information processing module is used for processing the relevant information of the battery;

the wire rod main body is connected with the measuring module at one end and the information processing module at the other end and used for transmitting the relevant information of the battery output by the measuring module to the information processing module;

and the communication module is connected with the information processing module and used for reporting the relevant information of the battery to the battery management service platform.

3. A battery management service method, the battery management service method comprising:

receiving and storing the relevant information of the battery reported by each battery monitoring terminal; the related information of the battery comprises identity information, state information, geographical position information or/and a motion track of the battery;

monitoring and managing the relevant information of each battery, and monitoring the running condition of each battery; the operation condition of the battery comprises the relevant information of the battery and the operation information of the equipment correspondingly bound with the battery;

and displaying the relevant information of the battery and the operation information of the equipment correspondingly bound with the battery in a list mode or a map mode.

4. The battery management service method according to claim 3, wherein the battery management service method further comprises:

monitoring and managing the relevant information of each battery, and monitoring the alarm condition of each battery; the alarm condition comprises the alarm reason or/and the alarm level of the battery which generates the alarm;

displaying alarm reasons or/and alarm levels of the battery in a list manner;

and further displaying the alarm details or/and the alarm position of the battery in a mode of adding a hot spot in a list.

5. The battery management service method according to claim 4, wherein the battery management service method further comprises:

setting a geo-fence, and monitoring the activity range of a battery added into the geo-fence; sending an alarm when the activity range of the battery added into the geo-fence exceeds the range defined by the geo-fence; or

Setting alarm threshold parameters and giving an alarm to the battery exceeding the alarm threshold;

the alarm comprises an internal alarm or/and an external alarm.

6. The battery management service method according to claim 3, wherein the battery management service method further comprises:

monitoring and managing the relevant information of each battery, and monitoring the contrast condition of each battery; the comparison condition comprises comparison of real-time monitoring data and historical monitoring data of the battery.

7. The battery management service method according to claim 3, wherein the battery management service method further comprises:

positioning and tracking corresponding batteries according to the identity information, state information, geographical position information or/and motion trail of each battery, and storing the positioning and tracking information of each battery;

setting a battery track query entry for the positioning tracking information of each battery; the query entry comprises a query input box for at least one battery;

track playing is carried out according to the query conditions received by the battery track query entrance; the query condition includes a battery number, a track playing time, or/and a start/end position of the track.

8. The battery management service method according to claim 3, wherein the battery management service method further comprises:

monitoring management of the corresponding battery is displayed to the corresponding enterprise according to a battery allocation request of the enterprise; or

And canceling and displaying the monitoring management of the corresponding battery to the corresponding enterprise according to the battery recycling request of the enterprise.

9. The battery management service method according to claim 3, wherein the battery management service method further comprises:

managing the battery monitoring terminal, wherein the managing comprises: and deleting the battery monitoring terminal or a measuring unit therein, or/and blackening the battery monitoring terminal.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the battery management service method according to any one of claims 3 to 9.

11. A battery management service platform, comprising:

a memory storing a computer program;

a processor, communicatively coupled to the memory, that executes the battery management service method of any of claims 3 to 9 when the computer program is invoked;

and the platform communication module is in communication connection with the processor and is used for realizing the communication between the battery management service platform and an external battery monitoring terminal.

12. The battery management service platform of claim 11, wherein: the battery management service platform is arranged at a PC (personal computer) end or a mobile terminal.

Images