CN106374545B - A kind of lead-acid accumulator control system and intelligence system - Google Patents
A kind of lead-acid accumulator control system and intelligence system Download PDFInfo
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- CN106374545B CN106374545B CN201510431663.3A CN201510431663A CN106374545B CN 106374545 B CN106374545 B CN 106374545B CN 201510431663 A CN201510431663 A CN 201510431663A CN 106374545 B CN106374545 B CN 106374545B
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Abstract
This application discloses a kind of lead-acid accumulator control system and intelligence systems, the control system it include the collecting unit and servo unit being built in lead-acid accumulator monomer, intelligent gateway, obtain the raw data acquisition unit of initial data when each lead-acid accumulator monomer manufacture, cloud data control platform.Due to acquiring the introducing of servo unit and raw data acquisition unit, initial data when cloud data control platform being allow to obtain running state parameter and the manufacture of each lead-acid accumulator monomer, so as to each lead-acid accumulator monomer from production to the Life cycle parameter during use into line trace and detection, solid data are provided to the management and maintenance of each lead-acid accumulator monomer, user can be made preferably to manage and safeguard lead-acid accumulator, effectively extend the service life of lead-acid accumulator.
Description
Technical field
This application involves lead-acid accumulators to manage control field.
Background technology
Valve-regulated lead-acid battery is widely used in electric power computer room, data center module, mobile base station etc. often as backup power supply
Important place.In recent years, the market capacity of global valve-regulated lead-acid battery had reached the rule in over ten billion Yuan RMB/year
Mould.
Since the running environment otherness of valve-regulated lead-acid battery is very big, for many important places, valve-controlled lead acid is stored
The monitoring and maintenance of battery are necessary.Currently, to the monitoring of lead-acid accumulator and safeguarding that there are mainly two types of modes in the industry:
The first is manual patrol, at regular intervals (such as 3 months or half a year), and engineering staff reaches scene, into
The tests such as quadrat acid accumulator electric current, voltage, temperature, manual record test measurement data.There are several disadvantages for manual patrol:By
In many base stations remoteness, personnel's vehicle resources input is larger, time-consuming and laborious;Electric power and computer room are important place, Ren Yuanjin
Go out management it is very stringent, personnel enter computer room, and there may be computer room potential faults.
Second:Lead-acid accumulator monitoring system is set, by the electric current, voltage and the running environment that acquire lead-acid accumulator
The data such as temperature judge the real time status of lead-acid accumulator, and use corresponding counter-measure.This method is to a certain degree
On solve the disadvantage that manpower tour, got certain effect.But also bring new inconvenience:First, monitoring cable is multiple
It is miscellaneous, it is easy and forceful electric power cable forms interference, or even open circuit, short circuit;Second is that environment temperature can not really reflect lead-acid accumulator
Behaviour in service can not accurately judge the health status of lead-acid accumulator, lead to not the carry out care and maintenance of science.
Under prior art conditions, it is quick usually to there is capacity after using about 2~3 years for the stand-by power supply of communication base station
Decline, is forced to scrap in advance, causes a large amount of economic loss and environmental pollution.Or lead-acid accumulator is in low capacity operation,
The standby electric duration in base station is shortened, to influence base station communication service quality, there are communication disruption hidden danger.
How preferably to maintain and extend the service life of valve-regulated lead-acid battery is current lead-acid accumulator industry one
A problem in the urgent need to address.
Invention content
The application provides a kind of lead-acid accumulator control system, easily and safely monitors and manages lead-acid accumulator, not only
The running state parameter that each lead-acid accumulator monomer can be obtained can also obtain original when each lead-acid accumulator monomer dispatches from the factory
Data, to provide effectively data supporting for the life-span upgrading of each lead-acid accumulator monomer and daily management.
According to the application's in a first aspect, this application provides a kind of lead-acid accumulator control systems, including:
The collecting unit and servo unit being built in the shell of lead-acid accumulator monomer, the collecting unit is for acquiring
State parameter during lead-acid accumulator monomer use, the state parameter include voltage, electric current and lead-acid accumulator monomer
Internal temperature;The servo unit is used to disconnect and be connected the charging and discharging circuit of the lead-acid accumulator monomer;
Intelligent gateway is communicated by wire communication loop or wireless communication link with collecting unit, and timing acquisition simultaneously uploads
The state parameter of the lead-acid accumulator monomer of collecting unit acquisition;Raw data acquisition unit, for obtaining each lead-acid accumulator
Initial data when monomer dispatches from the factory;
Cloud data control platform, when obtaining and store each lead-acid accumulator monomer manufacture that raw data acquisition unit obtains
Initial data;Cloud data control platform is also communicated by wired or wireless communication link with intelligent gateway, and intelligent gateway is received
The state parameter of the lead-acid accumulator monomer of upload;The cloud data control platform periodically drives intelligent gateway to lead-acid accumulator
Monomer startup verification discharge test is to obtain discharge curve, original when by the discharge curve of each lead-acid accumulator monomer, manufacture
Beginning data and the state parameter obtained in real time calculate chargeability and the health degree of each lead-acid accumulator monomer to position and replace
Faulty lead-acid accumulator monomer
According to the second aspect of the application, this application provides a kind of lead-acid accumulator intelligence systems, including:
Above-mentioned lead-acid accumulator control system;
First lead-acid accumulator monomer, first lead-acid accumulator are built-in in the lead-acid accumulator control system
Collecting unit and servo unit;
At least one second lead-acid accumulator monomer, the second lead-acid accumulator monomer are built-in with the lead-acid accumulator
Collecting unit in control system;The first lead-acid accumulator monomer and the second lead-acid accumulator are monomer series-connected.
The advantageous effect of the application is:
According to the lead-acid accumulator control system and intelligence system of above-mentioned implementation, due to the introducing of collecting unit, so as to
State parameter during detection lead-acid accumulator monomer use in real time, and the state parameter detected is sent out.
According to the lead-acid accumulator control system and intelligence system of above-mentioned implementation, due to the introducing of raw data acquisition unit,
So as to obtain initial data when each lead-acid accumulator monomer manufacture.
According to the lead-acid accumulator control system and intelligence system of above-mentioned implementation, due to collecting unit and raw data acquisition list
The introducing of member, so as to obtain initial data when state parameter and the manufacture during each lead-acid accumulator monomer use,
So as to each lead-acid accumulator monomer from production to the Life cycle parameter during use into line trace and detection, to each
The management and maintenance of lead-acid accumulator monomer provide solid data, and user can be made preferably to manage and safeguard lead acid storage battery
Pond effectively extends the service life of lead-acid accumulator.
According to the lead-acid accumulator control system and intelligence system of above-mentioned implementation, due to drawing for collecting unit and intelligent gateway
Enter so that user can detect the state parameter of lead-acid accumulator monomer by cloud data control platform in real time, to lead acid storage battery
Pond monomer is safeguarded, sends the charging time for disconnecting lead-acid accumulator monomer to collecting unit when the state parameter exception of acquisition
The order on road with control servo unit disconnect charge circuit, avoid acid accumulator monomer overcharge for a long time with the improper charging of high temperature,
Effectively extend the service life of lead-acid accumulator.
Description of the drawings
Fig. 1 is a kind of a kind of structural schematic diagram of the lead-acid accumulator control system of embodiment of the application;
Fig. 2 is a kind of a kind of structural schematic diagram of the lead-acid accumulator intelligence system of embodiment of the application.
Specific implementation mode
The application is described in further detail below by specific implementation mode combination attached drawing.
Lead-acid accumulator is powered frequently as the backup power supply after alternating current power-off for Switching Power Supply or uninterruptible power supply, and
In the case of alternating current is normal, the electric energy that Switching Power Supply or uninterruptible power supply etc. introduce alternating current again charges to lead-acid accumulator.
It during actual use, is usually used in conjunction with using multiple lead-acid batteries, together as backup power supply, lead acid storage battery
Pond group includes several lead-acid accumulator monomers, generally 4 or 6.
Referring to FIG. 1, this implementation provides a kind of lead-acid accumulator control system, for monitoring and managing each lead-acid accumulator
Monomer 50 comprising collecting unit 10, servo unit 11, intelligent gateway 20, cloud data control platform 30, raw data acquisition list
Member 40.It is specifically described below.
Collecting unit 10 and servo unit 11 are built in the shell of lead-acid accumulator monomer 50, and wherein collecting unit 10 is used
State parameter during acquiring 50 use of lead-acid accumulator monomer, state parameter includes voltage, electric current and lead-acid accumulator
The internal temperature of monomer 50;Servo unit 11 is used to disconnect and be connected the charging and discharging circuit of lead-acid accumulator monomer 50.Acquisition is single
Member 10 and servo unit 11 are electrically connected, and collecting unit 10 is additionally operable to the control command of response intelligent gateway 20 so that servo unit 11
Be turned on or off the charging and discharging circuit of lead-acid accumulator monomer 50.Though it should be noted that collecting unit 10 and servo unit 11
It is so powered by lead-acid accumulator monomer 50 to work, but collecting unit 10 and servo unit 11 have excellent super low-power consumption
Can, and the production in lead-acid accumulator monomer 50, storage and transportation and on-line operation stage, 11 basis of collecting unit 10 and servo unit
Stage residing for lead-acid accumulator monomer 50 carries out suspend mode or work, so collecting unit 10 is opposite with the power consumption of servo unit 11
It is very small for the self discharge power consumption of lead-acid accumulator monomer 50, the influence of the performance of lead-acid accumulator monomer 50 can be neglected
Slightly disregard.
Intelligent gateway 20 is communicated by wire communication loop or wireless communication link with collecting unit 10, in intelligent gateway 20
When being communicated with collecting unit 10 by wire communication loop, when some point of communications loop breaks down, communications loop can be broken
At 2 communication links, the normal communication between the collecting unit 10 that intelligent gateway 20 and communications loop break down still can guarantee,
In the present embodiment, wire communication loop is realized by RS485 interfaces;Intelligent gateway 20 by radio communication link with
When collecting unit 10 communicates, the wiring challenge not traditional with collecting unit 10, servo unit 11 of intelligent gateway 20, to
The problem of there is no tradition to cause to be susceptible to the safety accidents such as circuit break and short circuit since wiring is complicated.20 timing of intelligent gateway
The state parameter for the lead-acid accumulator monomer 50 that collecting unit 10 acquires is obtained, in one embodiment, intelligent gateway 20 is adopted
The state parameter that primary each acquisition servo unit 10 acquires is obtained within every 3 seconds with master-slave communication mode.In 20 times extensions of intelligent gateway
It when acquisition 10 quantity of servo unit is excessive, can not ensure that one can be communicated with each acquisition servo unit 10 in every 3 seconds sometimes
It is secondary, in one preferably embodiment, periodically clock synchronization synch command can be sent to collecting unit 10 to solve by intelligent gateway 20
The certainly above problem, specifically, intelligent gateway 20 periodically broadcast clock synchronization synch command to the collecting unit 10 for communicating with connection, respectively
After collecting unit 10 receives the clock synchronization synch command, in coincidence counter reset, the lead of acquisition of collecting unit 10 every 3 seconds
The state parameter of acid accumulator monomer 50 is simultaneously stored in the counting of coincidence counter at this time in the memory of collecting unit 10 jointly,
As soon as collecting unit 10 often acquires time state parameter, coincidence counter adds 1, wants collecting unit 10 to upload receiving intelligent gateway 20
The counting packing of state parameter and corresponding coincidence counter in memory is uploaded to intelligent network after its state parameter acquired
20 are closed, determines and empties memory after intelligent gateway 20 receives the data of packing, intelligent gateway 20 receives the number of the upload of collecting unit 10
After packet, according to the counting of the coincidence counter in data packet, the automatic synchronization for realizing state parameter.The judgement of intelligent gateway 20 is worked as
The charging of the lead-acid accumulator monomer 50 of off-state abnormal parameters is sent when the state parameter exception of acquisition to collecting unit 10
The order in circuit, makes servo unit 11 disconnect the charge circuit of this lead-acid accumulator monomer 50, and intelligent gateway 20 can also incite somebody to action simultaneously
The warning of state parameter exception is sent to cloud data control platform 30 for user's timely processing, to avoid lead-acid accumulator list
Body 50 overcharge for a long time with the improper charging of high temperature, effectively extend the service life of lead-acid accumulator monomer 50, state parameter wraps extremely
Include that voltage reaches the voltage threshold of setting, electric current reaches the current threshold of setting and internal temperature reaches the temperature threshold of setting,
Running parameter can be arranged in user by cloud data control platform 30 in intelligent gateway 20, and running parameter includes voltage threshold, electricity
Flow threshold value and temperature threshold etc..
For intelligent gateway 20 also by serial ports or network interface and power source communications, power supply is Switching Power Supply or uninterruptible power supply;Intelligence
Primary data analysis power supply when gateway 20 is according to the environment temperature of lead-acid accumulator monomer 50, state parameter and manufacture is to plumbic acid
Whether the charge parameter of single battery 50 is reasonable, and is adjusted in real time, and charge parameter includes equal float charge voltage and charging week
The running parameter of power supply is also uploaded to cloud data control platform 30 by phase, intelligent gateway 20.Above-mentioned lead-acid accumulator monomer 50
Environment temperature can be acquired by intelligent gateway 20, lead-acid accumulator monomer 50 dispatch from the factory when initial data by raw data acquisition list
Member 40 provides.
The running parameter of the state parameter of lead-acid accumulator monomer 50 and power supply is uploaded to cloud data pipe by intelligent gateway 20
Platform 30 is controlled for statistical analysis, can be stored when with cloud data 30 communication disruption of control platform power parameter and from each acquisition singly
The state parameter that member 10 obtains, after communication recovery, then is uploaded to cloud data control platform 30 automatically, in the present embodiment, intelligence
Gateway 20 and cloud data control platform 30 are the 2G/3G/4G communications provided by common carrier, intelligent gateway 20
The acquisition servo unit of lower extension 10 most 128, storage data longest 7 days.
Raw data acquisition unit 40 obtains initial data when each lead-acid accumulator monomer 50 dispatches from the factory;Initial data includes
Identifier, capacity, internal resistance, charge-discharge characteristic curve and combo information data etc. when lead-acid accumulator monomer 50 dispatches from the factory, due to
Initial data especially capacity, internal resistance and the more similar lead-acid accumulator monomer 50 of charge-discharge characteristic curve, when its combo is constituted
Its working performance is better when lead-acid batteries, and the service life is also longer, therefore in one preferably embodiment, initial data is adopted
Initial data when collection unit 40 dispatches from the factory according to each lead-acid accumulator monomer 50 of acquisition matches each lead-acid accumulator monomer
Group.
Each lead-acid accumulator monomer 50 that cloud data control platform 30 obtains and storage raw data acquisition unit 40 obtains
Initial data when manufacture.Configuration information and raw data acquisition unit of the cloud data control platform 30 also according to intelligent gateway 20
The identifier of the lead-acid accumulator monomer 50 of 40 initial data and match group information, the data that intelligent gateway 20 uploads are drawn automatically
It leads in corresponding cloud data control platform 30.
Cloud data control platform 30 is communicated by wired or wireless communication link with intelligent gateway 20, and intelligent gateway 20 is received
The data such as the state parameter of the lead-acid accumulator monomer of upload and the running parameter of power supply.Cloud data control platform 30 periodically drives
Intelligent gateway 20 controls power supply and starts verification discharge test to lead-acid accumulator monomer 50 to obtain discharge curve, passes through each plumbic acid
Charge-discharge characteristic curve when the discharge curve of single battery 50, manufacture and the state parameter such as voltage obtained in real time, calculate
Go out chargeability and the health degree of each lead-acid accumulator monomer 50 to position and replace faulty lead-acid accumulator monomer 50, very
Ground is convenient.
The chargeability of battery refers to that SOC (State of Charge), the battery SOC that electricity is full of are 100%, with
The electricity of the electric discharge of battery in use, battery is eventually reduced to 0, and SOC is the electricity that 0%, SOC reflects battery at this time
Amount situation;The health degree of battery refers to that SOH (State of Health), SOH=present batteries maximum capacity/battery are nominal
Capacity * 100%, SOH reflect the current capacity of battery, one piece of new battery with percentage, and SOH is greater than or equal to
100%, with the aging of battery, SOH is gradually reduced, and provides to drop to 80% when battery capacity in ieee standard 1188-1996
Or hereinafter, when i.e. SOH≤80%, battery should be just replaced.Lead-acid accumulator monomer 50 is used as backup power supply, after understanding at any time
The SOH of each lead-acid accumulator monomer 50 in stand-by power source, for ensureing that the reliable operation of standby power system has great effect,
It is powered off in alternating current, when the electric discharge of lead-acid accumulator monomer 50 is to power, recognizes each lead-acid accumulator list in backup power supply at any time
The SOC of body 50, can also provide non-firm power how long for user's grasp backup power supply has highly important effect, passes through understanding
Backup power supply can also provide supply of electric power how long, and user can take correspondingly measure in advance.In addition, the application is due to introducing
Raw data acquisition unit 40, when so as to by the state parameter during each 50 use of lead-acid accumulator monomer with its manufacture
Initial data be compared, more accurately judge to make one to the real-time status of each lead-acid accumulator monomer 50, such as
Whether SOH is too low so that needing replacing.
Cloud data control platform 30 also provides the monthly report of each 50 operating condition of lead-acid accumulator monomer, is joined according to state
Initial data when number, discharge curve, the manufacture of each lead-acid accumulator monomer 50, provides the electronic report of SOC and SOH.
Cloud data control platform 30 stores state parameter, discharge curve, the chargeability of each lead-acid accumulator monomer and strong
The data such as Kang Du, cloud data control platform 30 provide the full life asset management of lead-acid accumulator monomer 50, i.e., storage and can
Initial data when running state parameter and manufacture for calling each lead-acid accumulator monomer 50, storage and for calling each plumbic acid
Data of the single battery 50 from production to the Life cycle parameter during use, these data carry out plumbic acid for expert
50 management service of single battery and durability analysis have highly important effect, allow user to lead-acid accumulator monomer 50 into
Row is preventative to be safeguarded, replace and repairs, these data also provide solid data branch for the basis research and development of lead-acid accumulator
Hold, for example, cloud data control platform 30 using obtain the internal temperature of lead-acid accumulator monomer 50, voltage, electric current, capacity,
The data such as depth of discharge, charge and discharge number, the relationship of comparative analysis lead-acid accumulator manufacturing process and application environment are follow-up
The improvement of manufacturing process, the improvement of charge-discharge parameter and the promotion of capacity of lead acid battery provide data support.
The structure and principle explanation for the lead-acid accumulator control system that the application is proposed above.It needs specially to illustrate
It is the lead-acid accumulator monomer 50 drawn in Fig. 1, intelligent gateway 20, cloud data control platform 30, raw data acquisition unit 40
Quantity be not to indicate that actual quantity, user can be built-in with collecting unit 10 according to truth needs by several for illustrating
It is connect with intelligent gateway 20 with the lead-acid accumulator monomer 50 of servo unit 11, several intelligent gateways 20 and cloud data management and control is put down
Connection of platform 30 etc..
Disclosed herein as well is a kind of lead-acid accumulator intelligence systems, including above-mentioned lead-acid accumulator control system and lead
Acid accumulator monomer 50, wherein each lead-acid accumulator monomer 50 is built-in with collecting unit 10 and servo unit 11.In order to save
Device is saved, in one preferably embodiment, as shown in Fig. 2, lead-acid accumulator intelligence system includes above-mentioned lead-acid accumulator
Control system, the first lead-acid accumulator monomer 51 and at least one second lead-acid accumulator monomer 52.First lead-acid accumulator list
Body 51 is built-in with collecting unit 10 and servo unit 11, and the second lead-acid accumulator monomer 52 is built-in with collecting unit 10.First
Lead-acid accumulator monomer 51 is connected with the second lead-acid accumulator monomer 52, therefore the servo list in the first lead-acid accumulator monomer 51
The charge and discharge that member 11 can be connected and disconnect after the first lead-acid accumulator monomer 51 and the series connection of the second lead-acid accumulator monomer 52 are returned
Road.
The application propose lead-acid accumulator control system and intelligence system, can to lead-acid accumulator monomer 50 from production to
Life cycle parameter during use carries out tracing detection, initial data and reality when lead-acid accumulator monomer 50 is dispatched from the factory
The data comparisons such as the state parameter in the application process of border are made the care and maintenance of lead-acid accumulator monomer 50 and are correctly sentenced
Disconnected, SOC and SOH to calculate lead-acid accumulator monomer 50 provide enough data foundations, and traditional lead-acid accumulator is supervised
Control system is the initial data that can not be obtained when lead-acid accumulator monomer 50 dispatches from the factory, therefore its maintaining made judges and meter
The SOC and SOH of calculation are very inaccurate.The lead-acid accumulator control system that the application proposes is when lead-acid accumulator monomer 50
When state parameter exception, warning message is sent to cloud data control platform 30 in time, to prompt user's timely processing, is realized pair
The long-range control in real time of lead-acid accumulator monomer 50 and management, and user can be by cloud data control platform 30 to intelligent network
20 setting running parameters are closed, lead-acid accumulator monomer 50 is made to be operated in optimum state.The application pass through more than technological means, make
The service life of lead-acid accumulator is greatly increased, and not only has direct economic benefit, but also reduces annual lead-acid accumulator
The quantity scrapped in advance and thus pollution on the environment.
The foregoing is a further detailed description of the present application in conjunction with specific implementation manners, and it cannot be said that this Shen
Specific implementation please is confined to these explanations.For those of ordinary skill in the art to which this application belongs, it is not taking off
Under the premise of conceiving from the present application, a number of simple deductions or replacements can also be made.
Claims (10)
1. a kind of lead-acid accumulator control system, which is characterized in that including:
The collecting unit and servo unit being built in the shell of lead-acid accumulator monomer, the collecting unit is for acquiring plumbic acid
State parameter during single battery use, the state parameter include the interior of voltage, electric current and lead-acid accumulator monomer
Portion's temperature;The servo unit is used to disconnect and be connected the charging and discharging circuit of the lead-acid accumulator monomer;
Intelligent gateway is communicated by wire communication loop or wireless communication link with collecting unit, and timing acquisition simultaneously uploads acquisition
The state parameter of the lead-acid accumulator monomer of unit acquisition;Raw data acquisition unit, for obtaining each lead-acid accumulator monomer
Initial data when manufacture;
Cloud data control platform obtains and stores original when each lead-acid accumulator monomer manufacture that raw data acquisition unit obtains
Beginning data;Cloud data control platform is also communicated by wired or wireless communication link with intelligent gateway, is received intelligent gateway and is uploaded
Lead-acid accumulator monomer state parameter;The cloud data control platform periodically drives intelligent gateway to lead-acid accumulator monomer
Startup verification discharge test is to obtain discharge curve, original number when by the discharge curve of each lead-acid accumulator monomer, manufacture
According to the state parameter that obtains in real time, calculate chargeability and the health degree of each lead-acid accumulator monomer with position and replacement has therefore
The lead-acid accumulator monomer of barrier.
2. lead-acid accumulator control system as described in claim 1, which is characterized in that the intelligent gateway is obtained when judgement
The order for the charge circuit for disconnecting lead-acid accumulator monomer is sent to control servo unit to collecting unit when state parameter exception
Disconnect charge circuit, the state parameter includes that voltage reaches the voltage threshold of setting, electric current reaches the current threshold of setting extremely
Value and internal temperature reach the temperature threshold of setting.
3. lead-acid accumulator control system as claimed in claim 2, which is characterized in that the intelligent gateway is different by state parameter
Normal warning is sent to cloud data control platform for user's timely processing.
4. lead-acid accumulator control system as claimed in claim 2, which is characterized in that user can pass through cloud data control platform
Running parameter is set in intelligent gateway, and the running parameter includes voltage threshold, current threshold and temperature threshold.
5. lead-acid accumulator control system as described in claim 1, which is characterized in that the intelligent gateway per n second and and its
Each collecting unit communication of communication connection is primary, to obtain the state parameter of each collecting unit acquisition;Intelligent gateway periodically to
Its collecting unit communicated to connect broadcast clock synchronization synch command is to ensure that every n seconds just leads to each collecting unit with its communication connection
Letter is primary, wherein the n is the real number more than 0.
6. lead-acid accumulator control system as described in claim 1, which is characterized in that the intelligent gateway with cloud data pipe
Control Platform communication can store the state parameter obtained from each collecting unit when interrupting, and after communication recovery, then be uploaded to cloud automatically
Data control platform.
7. lead-acid accumulator control system as described in claim 1, which is characterized in that the intelligent gateway also by serial ports or
Network interface and power source communications;Primary data analysis power supply when the intelligent gateway is according to state parameter and manufacture is to lead-acid accumulator
Whether the charge parameter of monomer is reasonable, and is adjusted in real time, and the charge parameter includes equal float charge voltage and charge cycle.
8. lead-acid accumulator control system as described in claim 1, which is characterized in that the raw data acquisition unit according to
Initial data when each lead-acid accumulator monomer manufacture obtained carries out combo to each lead-acid accumulator monomer.
9. such as claim 1 to 8 any one of them lead-acid accumulator control system, which is characterized in that the raw data packets
Capacity and charge-discharge characteristic curve when including the manufacture of lead-acid accumulator monomer.
10. a kind of lead-acid accumulator intelligence system, which is characterized in that including:
Any one lead-acid accumulator control system as described in claim 1 to 9;
First lead-acid accumulator monomer, first lead-acid accumulator are built-in with the acquisition in the lead-acid accumulator control system
Unit and servo unit;
At least one second lead-acid accumulator monomer, the second lead-acid accumulator monomer are built-in with the lead-acid accumulator control
Collecting unit in system;The first lead-acid accumulator monomer and the second lead-acid accumulator are monomer series-connected.
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PCT/CN2015/088228 WO2017012172A1 (en) | 2015-07-21 | 2015-08-27 | Lead-acid storage battery system, control system, and smart system |
US15/308,834 US20170163068A1 (en) | 2015-07-21 | 2015-08-27 | Lead-acid battery system, control system and intelligent system |
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CN108120938A (en) * | 2017-12-22 | 2018-06-05 | 厦门科华恒盛股份有限公司 | A kind of data center with distributed battery monitoring system |
CN111047297A (en) * | 2019-12-17 | 2020-04-21 | 广州市极越电子有限公司 | Battery life cycle management system and method |
CN117706261B (en) * | 2024-02-06 | 2024-05-17 | 深圳市积加创新技术有限公司 | Monitoring method for health state of constant electric product based on electricity meter |
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CN102856965A (en) * | 2012-10-12 | 2013-01-02 | 山东省科学院自动化研究所 | Intelligent system of electric automobile charging station and charging method |
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