CN215340227U - Energy storage intelligent monitoring control system - Google Patents

Abstract

An energy storage intelligent monitoring control system comprises an energy storage monitoring hardware terminal module, a decoder, a display module, a storage server, a mobile terminal, a cloud server, a plurality of groups of monitoring modules and an artificial intelligent platform; the energy storage monitoring hardware terminal module comprises a microcontroller, a voltage detection module, an electric quantity detection module, a communication module, a power supply module and a display; the power supply module is respectively and electrically connected with the microcontroller, the voltage detection module, the electric quantity detection module, the communication module and the display; the microcontroller is in communication connection with the communication module, and the microcontroller is in communication connection with the storage server and the cloud server through the communication module respectively; the microcontroller is respectively in communication connection with the plurality of groups of monitoring modules; the cloud server is in communication connection with the artificial intelligence platform; the artificial intelligence platform is in communication connection with the mobile terminal; the decoder is in communication connection with the microcontroller and the display module. The utility model can carry out comprehensive on-line monitoring, fault diagnosis and early warning on the battery pack and ensure the safe and reliable operation of the battery system.

Description

Energy storage intelligent monitoring control system

Technical Field

The utility model relates to the technical field of primary frequency modulation, AGC frequency modulation, peak shaving, standby power supply, black start and other performances of an energy storage auxiliary power plant, in particular to an energy storage intelligent monitoring control system.

Background

The energy storage combined frequency modulation system is used as an auxiliary power plant unit frequency modulation system; in addition, the battery is overloaded and heated for a long time, so that the loss of the battery is greatly increased, the battery is easy to damage and break down, and a fire disaster can be caused when the battery is serious; if the potential fault cannot be detected, early-warned and processed in time, the system paralysis and even the fire disaster can be caused under the accident condition.

SUMMERY OF THE UTILITY MODEL

Objects of the utility model

The utility model provides an energy storage intelligent monitoring control system for solving the technical problems in the background art, which can carry out comprehensive on-line monitoring, fault diagnosis and early warning on a battery pack, ensure the safe and reliable operation of a battery system, and solve the problems of monitoring, detection, control and analysis of the real-time working condition of the existing electronic equipment so as to ensure the safe operation of the electronic equipment system.

(II) technical scheme

In order to solve the problems, the utility model provides an energy storage intelligent monitoring control system, which comprises an energy storage monitoring hardware terminal module, a decoder, a display module, a storage server, a mobile terminal, a cloud server, a plurality of groups of monitoring modules and an artificial intelligent platform;

the energy storage monitoring hardware terminal module comprises a microcontroller, a voltage detection module, an electric quantity detection module, a communication module, a power supply module and a display; the power supply module is respectively and electrically connected with the microcontroller, the voltage detection module, the electric quantity detection module, the communication module and the display;

the microcontroller is in communication connection with the communication module, and the microcontroller is in communication connection with the storage server and the cloud server through the communication module respectively; the microcontroller is respectively in communication connection with a plurality of groups of monitoring modules with different image acquisition functions; the plurality of groups of monitoring modules are respectively arranged in the monitoring areas;

the cloud server is in communication connection with an artificial intelligence platform used for intelligently monitoring the energy storage power station; the artificial intelligence platform is in communication connection with the mobile terminal;

the decoder is in communication connection with the microcontroller, and the decoder is in communication connection with a display module used for image information received by the microcontroller.

Preferably, the energy storage monitoring hardware terminal module further comprises a clock module; the clock module is in communication connection with the microcontroller.

Preferably, the energy storage monitoring hardware terminal module further comprises a charging interface module, a charging circuit module, a switch circuit module and a charging socket;

each group of monitoring modules is electrically connected with the charging interface module, the charging circuit module, the switch circuit module and the charging socket; wherein, the interface module that charges is electric connection voltage detection module and electric quantity detection module respectively.

Preferably, the energy storage monitoring hardware terminal module further comprises a speaker; the loudspeaker is electrically connected with the microcontroller and the power supply module.

Preferably, the monitoring module is provided with a wireless transceiver module, and an intelligent AI chip for contrastive analysis of data is arranged in the monitoring module.

Preferably, the system also comprises an alarm module; the microcontroller is connected with the alarm module in a control mode.

Preferably, the mobile terminal comprises a computer terminal and a smart phone terminal.

Preferably, the artificial intelligence platform is internally provided with an industry big data acquisition, storage and data analysis module, a user analysis module and a data analysis, detection and management module.

The technical scheme of the utility model has the following beneficial technical effects:

firstly, a plurality of groups of monitoring modules with different functions are respectively arranged in different areas to be monitored so as to acquire images of the areas to be monitored, and the plurality of groups of monitoring modules send acquired image information to a microcontroller; the microcontroller processes the obtained image information in a village mode, then sends the obtained image information to the storage server and the cloud server through the communication module, and the image received by the microcontroller is stored through the storage server, so that a worker can conveniently look up the stored historical image;

secondly, the cloud server sends the received image information to the artificial intelligence platform, and the artificial intelligence platform is communicated with the mobile terminal; therefore, the working personnel can check the image information received by the cloud server in real time through the smart phone or the computer and the artificial intelligent platform, the battery pack can be comprehensively monitored on line on the smart phone or the computer, potential safety hazards existing in the area to be detected can be timely known, and the battery pack can be timely responded, faults existing in the battery pack can be timely diagnosed and early warned, and the safe and reliable operation of a battery system can be guaranteed; in addition, the artificial intelligence platform can analyze the data obtained by monitoring, so as to realize the functions of intelligent meter reading, equipment state identification, defect detection, safety protection article wearing identification, double-person operation identification, thermal imaging temperature measurement, off-post monitoring, intelligent inspection, personnel positioning and the like, and can meet the requirement of intelligent monitoring of the battery in the monitoring area;

in the utility model, the decoder decodes the image information received by the microcontroller and displays the image information on a display module of a monitoring room, and an attendant checks the image information monitored by the battery pack which is transmitted to the display module in real time so as to perform all-weather real-time online monitoring on the battery pack;

therefore, the utility model can carry out comprehensive on-line monitoring, fault diagnosis and early warning on the battery pack, ensures the safe and reliable operation of the battery system, solves the problems of monitoring, detecting, controlling and analyzing the real-time working condition of the existing electronic equipment so as to ensure the safe operation of the electronic equipment system, and is obviously beneficial to popularization.

Drawings

Fig. 1 is a schematic block diagram of an energy storage intelligent monitoring control system according to the present invention.

Reference numerals: 11. an energy storage monitoring hardware terminal module; 12. a decoder; 13. a display module; 14. a storage server; 15. a mobile terminal; 16. a cloud server; 17. a monitoring module; 18. and (4) an artificial intelligence platform.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1, the energy storage intelligent monitoring control system provided by the present invention includes an energy storage monitoring hardware terminal module 11, a decoder 12, a display module 13, a storage server 14, a mobile terminal 15, a cloud server 16, multiple groups of monitoring modules 17, and an artificial intelligence platform 18;

the energy storage monitoring hardware terminal module 11 comprises a microcontroller, a voltage detection module, an electric quantity detection module, a communication module, a power supply module and a display; the power supply module is respectively and electrically connected with the microcontroller, the voltage detection module, the electric quantity detection module, the communication module and the display;

the microcontroller is in communication connection with the communication module, and the microcontroller is in communication connection with the storage server 14 and the cloud server 16 through the communication module respectively; the microcontroller is respectively in communication connection with a plurality of groups of monitoring modules 17 with different image acquisition functions; the microcontroller is integrated with a wireless receiving module, a wireless transmitting module, a communication module and a flash memory chip;

the plurality of groups of monitoring modules 17 are respectively arranged in the monitoring areas;

the cloud server 16 is in communication connection with an artificial intelligence platform 18 for intelligently monitoring the energy storage power station; the artificial intelligence platform 18 is in communication connection with the mobile terminal 15, and the mobile terminal 15 is used for receiving image information of the monitored area sent by the artificial intelligence platform 18 so as to facilitate the staff to check the monitored area in real time; the artificial intelligence platform 18 can analyze the data obtained by monitoring to realize the functions of intelligent meter reading, equipment state identification, defect detection, safety protection article wearing identification, double-person operation identification, thermal imaging temperature measurement, off-post monitoring, intelligent inspection, personnel positioning and the like.

The decoder 12 is in communication connection with the microcontroller, and the decoder 12 is in communication connection with a display module 13 for image information received by the microcontroller; the display module 13 is installed in the monitoring room.

When the utility model is used, a plurality of groups of monitoring modules 17 with different functions are respectively arranged in different areas to be monitored according to the requirement of acquiring images of the areas to be acquired; the multi-group monitoring module 17 sends the acquired image information to the microcontroller; the microcontroller processes the obtained image information in a village and sends the obtained image information to the storage server 14 and the cloud server 16 through the communication module; wherein the storage server 14 stores the image received by the microcontroller; the cloud server 16 sends the received image information to the artificial intelligence platform 18, and meanwhile, the mobile terminal 15 can receive the image information sent by the artificial intelligence platform 18, so that a worker can check the monitored area in real time; the decoder 12 decodes the image information received by the microcontroller and displays the image information on the display module 13 of the monitoring room.

In an optional embodiment, the energy storage monitoring hardware terminal module 11 further includes a clock module; the clock module is in communication connection with the microcontroller.

In an optional embodiment, the energy storage monitoring hardware terminal module 11 further includes a charging interface module, a charging circuit module, a switching circuit module, and a charging socket;

each group of monitoring modules 17 is electrically connected with the charging interface module, the charging circuit module, the switch circuit module and the charging socket; the charging socket is electrically connected with the mains supply;

wherein, the interface module that charges is electric connection voltage detection module and electric quantity detection module respectively.

In an alternative embodiment, the energy storage monitoring hardware terminal module 11 further includes a speaker; the loudspeaker is electrically connected with the microcontroller and the power supply module.

In an optional embodiment, a wireless transceiver module is arranged on the monitoring module 17, an intelligent AI chip for performing comparative analysis on data is arranged in the monitoring module 17, so that the monitoring module 17 has data acquisition, storage and analysis processing functions, and the monitoring module 17 can transmit the acquired data and data analysis results to the artificial intelligence platform 18 or the mobile terminal through the wireless transceiver module, so that data information can be visually checked;

further, the monitoring module 17 is selected from but not limited to a web ball camera, a web cylinder camera, an automatic tracking camera or a high definition camera; wherein, the network ball type camera and the network barrel type camera both adopt infrared cameras;

the infrared camera has excellent night vision performance and higher video resolution, has good imaging performance under the condition of very low illumination intensity even 0LUX illumination intensity, and can meet the requirement of monitoring a monitoring area under the condition of poor sight at night;

the high-definition camera is mainly installed in an open area to be monitored so as to meet the requirement of area monitoring;

the periphery of the area to be monitored and the main outdoor open area can adopt automatic tracking cameras, when a moving object is found, the automatic tracking cameras stop continuously executing patrol programs, zoom and amplify target images and track targets so as to record the motion and send out an alarm; the actions do not need the help of operators, so that the operators can process the alarm or take other actions, and the monitoring safety performance is greatly improved more intelligently;

in addition, the monitoring module 17 is also provided with a front-end device control function for manually controlling operations such as zooming, focusing and the like of the lens, so that the needs of detailed observation and snapshot of the target are realized; the monitoring module 17 is installed outdoors and has the functions of remotely starting a windshield wiper to clean the camera end face of the windshield wiper and starting a light supplement lamp to assist light and the like;

it should be noted that measures such as lightning protection and grounding need to be taken for the monitoring module 17 installed outdoors.

In an optional embodiment, the system further comprises an alarm module; the microcontroller is connected with the alarm module in a control mode, when the conditions of power failure, shielding of a shooting end of the monitoring module 17, video loss and the like occur, the alarm module gives an alarm to remind a manager to know the conditions on site and process the alarm conditions;

in addition, the health state of the battery is analyzed according to data acquired by the system in real time, the battery health information is displayed on the front-end display module, meanwhile, the battery health information is compared with an original factory database, if the battery has a problem, the front-end display module displays alarm information, and meanwhile, the alarm module carries out alarm fault reminding so as to remind a worker to timely detect and maintain the faulty battery.

In an alternative embodiment, the mobile terminal 15 includes a computer terminal and a smart phone terminal; it should be noted that, corresponding application software is installed at the computer end and corresponding APP is installed at the smart phone end, and a worker can check monitored image information in real time by logging in a system through a computer or a mobile phone;

wherein, a hierarchical management function is provided in the mobile terminal 15, and is used for recording information of the configuration client and the operation client, specifically including a user name, a password, and a user authority (system resource);

executing a login authentication function before the mobile terminal 15 accesses the monitoring system; a management platform with C/S as a framework is built in a security control center of a research institute, and for personnel who remotely access and control, the personnel can log in a WEB client end through authorization, so that the functions of controlling the monitoring module 17, previewing real-time images, checking video data and the like are realized.

In an alternative embodiment, the artificial intelligence platform 18 is internally provided with an industry big data acquisition, storage and data analysis module, a user analysis module and a data analysis, detection and management module.

The utility model provides an energy storage intelligent monitoring control system which is used for being in communication connection with a generator set frequency modulation control module; the generator set frequency modulation control module is mainly integrated by an AGC main control unit PLC, a communication card, an IO card, a control power supply and the like and is installed in a control room container cabinet, communication with a power plant RTU and a DCS system is completed through an energy storage remote IO cabinet, an AGC dispatching instruction is obtained, energy storage system access point state information, a DCS switching operation instruction and the like are received, and meanwhile, energy storage system state signals are uploaded;

the generator set frequency modulation control module calculates and determines an energy storage system output instruction through an algorithm according to received AGC (automatic gain control) instructions, unit information and other operation data, and sends the energy storage system output instruction to the energy storage battery master control unit; the electrochemical energy storage device has the advantages of high adjusting speed and short response time, and due to the arrangement of the switching device, a plurality of thermal power generating units can share one electrochemical energy storage device for switching use, so that the resource utilization rate is improved, and the cost is low;

the energy storage intelligent monitoring control system provided by the application document is matched with a generator set frequency modulation control module for use, so that single battery level estimation can be realized; the lowest estimation value of the single battery is used as the estimation value of the battery pack, so that the estimation accuracy of SOC, SOP and SOH of the battery can be improved;

in addition, accurate second-order model SOC estimation is carried out, each battery works in an SOC preset interval, power failure and groveling are avoided, and the service life of the battery is prolonged; accurate SOP estimation is realized, each battery is charged and discharged without exceeding the limiting function, potential safety hazards are eliminated, and the service life of the battery is prolonged; accurately estimating the capacity and power of each battery after attenuation, and accurately estimating the aging state of the battery; the high-efficiency real-time passive equalization ensures that all the single batteries of the battery pack are fully charged at the same time, ensures that the open circuit voltage of the single batteries is consistent, ensures that the consistency difference between the capacity and the power is as small as possible, further ensures the uniformity of the service performance of each battery, reduces the probability of battery accidents, and greatly improves the safety service performance of the batteries.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the utility model and are not to be construed as limiting the utility model. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (6)

1. An energy storage intelligent monitoring control system is characterized by comprising an energy storage monitoring hardware terminal module (11), a decoder (12), a display module (13), a storage server (14), a mobile terminal (15), a cloud server (16), a plurality of groups of monitoring modules (17) and an artificial intelligent platform (18);

the energy storage monitoring hardware terminal module (11) comprises a microcontroller, a voltage detection module, an electric quantity detection module, a communication module, a power supply module and a display; the power supply module is respectively and electrically connected with the microcontroller, the voltage detection module, the electric quantity detection module, the communication module and the display;

the microcontroller is in communication connection with the communication module, and the microcontroller is in communication connection with the storage server (14) and the cloud server (16) through the communication module respectively; the microcontroller is respectively in communication connection with a plurality of groups of monitoring modules (17) with different image acquisition functions; the multiple groups of monitoring modules (17) are respectively arranged in the monitoring areas;

the cloud server (16) is in communication connection with an artificial intelligence platform (18) used for intelligently monitoring the energy storage power station; the artificial intelligence platform (18) is in communication connection with the mobile terminal (15);

the decoder (12) is in communication connection with the microcontroller, and the decoder (12) is in communication connection with a display module (13) used for image information received by the microcontroller.

2. The intelligent energy storage monitoring and control system according to claim 1, wherein the energy storage monitoring hardware terminal module (11) further comprises a clock module; the clock module is in communication connection with the microcontroller.

3. The intelligent energy storage monitoring and control system according to claim 1, wherein the energy storage monitoring hardware terminal module (11) further comprises a charging interface module, a charging circuit module, a switching circuit module and a charging socket;

each group of monitoring modules (17) is electrically connected with the charging interface module, the charging circuit module, the switch circuit module and the charging socket; wherein, the interface module that charges is electric connection voltage detection module and electric quantity detection module respectively.

4. An energy storage intelligent monitoring control system according to claim 1, characterized in that the energy storage monitoring hardware terminal module (11) further comprises a speaker; the loudspeaker is electrically connected with the microcontroller and the power supply module.

5. The intelligent energy storage monitoring and control system according to claim 1, further comprising an alarm module; the microcontroller is connected with the alarm module in a control mode.

6. The intelligent energy storage monitoring and control system according to claim 1, wherein the mobile terminal (15) comprises a computer terminal and a smart phone terminal.

Images