CN111951474A - Intelligent management system for charging station - Google Patents

Intelligent management system for charging station Download PDF

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Publication number
CN111951474A
CN111951474A CN202010617080.0A CN202010617080A CN111951474A CN 111951474 A CN111951474 A CN 111951474A CN 202010617080 A CN202010617080 A CN 202010617080A CN 111951474 A CN111951474 A CN 111951474A
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information
charging
vehicle
charging station
module
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CN202010617080.0A
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杜进桥
田杰
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Shenzhen Power Supply Bureau Co Ltd
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Shenzhen Power Supply Bureau Co Ltd
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Priority to CN202010617080.0A priority Critical patent/CN111951474A/en
Publication of CN111951474A publication Critical patent/CN111951474A/en
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    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07FCOIN-FREED OR LIKE APPARATUS
    • G07F15/00Coin-freed apparatus with meter-controlled dispensing of liquid, gas or electricity
    • G07F15/003Coin-freed apparatus with meter-controlled dispensing of liquid, gas or electricity for electricity
    • G07F15/005Coin-freed apparatus with meter-controlled dispensing of liquid, gas or electricity for electricity dispensed for the electrical charging of vehicles
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/01Protocols
    • H04L67/12Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L69/00Network arrangements, protocols or services independent of the application payload and not provided for in the other groups of this subclass
    • H04L69/08Protocols for interworking; Protocol conversion

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Computer Security & Cryptography (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Health & Medical Sciences (AREA)
  • Computing Systems (AREA)
  • General Health & Medical Sciences (AREA)
  • Medical Informatics (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)
  • Electric Propulsion And Braking For Vehicles (AREA)

Abstract

The invention relates to the technical field of charging management, and discloses an intelligent management system for a charging station. And the charging system is used for matching a charging module corresponding to the vehicle information according to the vehicle information of the charging vehicle to charge the charging vehicle. The charging system can also transmit the collected environmental information, user information, vehicle information and battery information in the charging system to the management center through the communication system. The management center collects and analyzes the environmental information, the user information, the vehicle information and the battery information, can monitor the charging condition of each charging device in the charging station in real time, timely maintains each charging device when abnormal conditions occur, and can share information with other charging station sites.

Description

Intelligent management system for charging station
Technical Field
The invention relates to the technical field of charging management, in particular to an intelligent management system for a charging station.
Background
With the development of society, a series of new energy vehicles using electric energy are gaining favor of more and more consumers due to their low price and low power consumption. Due to the development of electric automobiles, a large number of automobile charging piles are arranged in many places of China at present so as to be used by owners of the electric automobiles. However, the transmission protocols of the current electric vehicle charging system and the current power management system are not completely standardized, and the current charging system is difficult to realize efficient intelligent identification, perception and management on each charging pile and the vehicle to be charged which are scattered in the charging station.
Disclosure of Invention
Based on this, it is necessary to provide an intelligent charging station management system for solving the problem that it is difficult for the existing charging system to efficiently and intelligently identify, sense and manage the charging piles and the vehicles to be charged, which are dispersed in the charging station.
An intelligent management system of a charging station comprises a detection system, a charging system, a communication system and a management center; the detection system is connected with the charging system; the charging system is connected with the management center through the communication system; the detection system is used for detecting environmental information, user information of the charging vehicle and vehicle information in the range of the charging station and transmitting the environmental information, the user information and the vehicle information to the charging system; the charging system is used for charging the charging vehicle according to the vehicle information and transmitting the environment information, the user information, the vehicle information and the battery information of the charging system to the management center through the communication system; the management center is used for analyzing the environment information, the user information, the vehicle information and the battery information, monitoring the conditions in the charging station in real time and maintaining the normal operation of equipment in the charging station.
According to the intelligent management system for the charging station, the detection system is used for sensing the environmental information in the charging station, the user information of the charging vehicle and the vehicle information to obtain and transmit the environmental information, the user information and the vehicle information to the charging system. The charging system can match a charging module corresponding to the vehicle information according to the vehicle information of the charging vehicle to charge the charging vehicle. The charging system can also transmit the collected environment information, the collected user information, the collected vehicle information and the collected battery information in the charging system to the management center through the communication system. The management center collects and analyzes the environmental information, the user information, the vehicle information and the battery information, can monitor the charging condition of each charging device in the charging station in real time, timely maintains each charging device when abnormal conditions occur, and can share information with other charging station sites. By applying the intelligent charging station management system provided by the invention to each charging station, the relevant information of the charging pile and the charging vehicle in each charging station can be intuitively known, and the charging condition in the charging station can be timely fed back and each facility in the charging station can be timely maintained through the processing and analysis of the information by the management center, so that an operator can better manage and manage the charging station.
In one embodiment, the detection system comprises a sensor module connected with the charging system and used for detecting environmental information in the range of the charging station; and the equipment sensing module is connected with the charging system and used for sensing and acquiring the vehicle information and the user information of the charging vehicle.
In one embodiment, the sensor module comprises a temperature sensor connected with the charging system and used for detecting environmental temperature information in the charging station and transmitting the environmental temperature information to the charging system; the humidity sensor is connected with the charging system and used for detecting the environmental humidity information in the charging station and transmitting the information to the charging system; the smoke sensor is connected with the charging system, is used for detecting smoke concentration information in the charging station and transmits the smoke concentration information to the charging system; and the water leakage sensor is connected with the charging system and used for detecting water leakage information in the charging station and transmitting the water leakage information to the charging system.
In one embodiment, the device sensing module includes an RFID module connected to the charging system, and configured to read user information on a user IC card, match a user identity according to the user information, and acquire corresponding vehicle information.
In one embodiment, the charging system comprises at least one charging pile connected with the equipment sensing module and used for charging the charging vehicle according to the vehicle information; and the charging control module is respectively connected with the sensor module, the charging pile and the communication system and used for collecting the environmental information, the user information, the vehicle information and the battery information of the charging pile and transmitting the environmental information, the user information, the vehicle information and the battery information to the management center through the communication system.
In one embodiment, the charging system further includes a display module connected to the charging control module for displaying the battery information, the vehicle information, and the user information.
In one embodiment, the communication system includes an EnOcean module connected to the charging system for receiving the environment information, the user information, the vehicle information, and the battery information; the communication protocol conversion module is connected with the EnOcean module and is used for converting the EnOcean protocol into a TCP/IP protocol and a WiFi protocol; and the WiFi module is connected with the communication protocol conversion module and is used for transmitting the environment information, the user information, the vehicle information and the battery information to the management center.
In one embodiment, the management center includes an upper computer connected to the communication system, and is configured to analyze the environmental information, the user information, the vehicle information, and the battery information, monitor a condition in the charging station in real time, and maintain normal operation of devices in the charging station.
In one embodiment, the management center further includes a cloud end respectively connected to the upper computer and the communication system, and configured to store the collected historical data of the environment information, the user information, the vehicle information, and the battery information.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments or the conventional technologies of the present application, the drawings used in the descriptions of the embodiments or the conventional technologies will be briefly introduced below, it is obvious that the drawings in the following descriptions are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
Fig. 1 is a block diagram of a charging station intelligent management system according to an embodiment of the present invention;
fig. 2 is a block diagram of a charging station intelligent management system according to another embodiment of the present invention;
fig. 3 is a schematic diagram of a charging control module according to an embodiment of the present invention.
Detailed Description
To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. As used herein, the terms "vertical," "horizontal," "left," "right," "upper," "lower," "front," "rear," "circumferential," and the like are based on the orientation or positional relationship shown in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the present invention.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.
At present, the transmission protocols of an electric vehicle charging system and a power management system in the charging station are not completely standardized, and how to remotely communicate the electric vehicle charging stations scattered in each area becomes a difficult problem in remotely realizing intelligent identification and management of the electric vehicles charged in the scattered charging stations. According to the method and the device, the communication technology and the terminal equipment with the sensing function are utilized, and the information of the rechargeable electric vehicle, the working state information in the charging station and the management system are interconnected and intercommunicated. In the whole intelligent management system, the electric vehicles charged in the scattered charging stations are intelligently identified, sensed and managed on the basis of Ethernet.
Fig. 1 is a block diagram of a charging station intelligent management system according to an embodiment of the present invention, which includes a detection system 100, a charging system 200, a communication system 300, and a management center 400. The detection system 100 is configured to detect environmental information, user information of the charging vehicle, and vehicle information within the range of the charging station, and transmit the environmental information, the user information, and the vehicle information to the charging system. The charging system 200 is connected to the detection system 100, the charging system 200 is further connected to the management center 400 through the communication system 300, and the charging system 200 is configured to charge the charging vehicle according to the vehicle information, and transmit the environment information, the user information, the vehicle information, and the battery information of the charging system 200 to the management center 400 through the communication system 300. The management center 400 is configured to analyze the environment information, the user information, the vehicle information, and the battery information, monitor a condition in the charging station in real time, and maintain normal operation of devices in the charging station.
The charging station intelligent management system detects environmental information in the charging station through the detection system 100, and when a vehicle to be charged needs to be charged, the detection system 100 can also sense and acquire user information and vehicle information of the vehicle to be charged and transmit the user information and the vehicle information to the charging system 200. The charging system 200 may select a charging module matching the vehicle information to charge the charging vehicle according to the user information and the vehicle information of the charging vehicle. The charging system 200 may also transmit the received environment information, user information, vehicle information, and battery information of the charging system 200 to the communication system 300, and the communication system 300 transmits the information to the remote management center 400. The management center 400 can collect and analyze the environmental information, the user information, the vehicle information, and the battery information, so as to monitor the charging status of each charging device in the charging station in real time, and timely maintain each charging device when an abnormal condition occurs. The intelligent charging station management system provided by the invention is applied to electric vehicle charging stations scattered in various regions, the intelligent charging station management systems are communicated and interconnected, information can be shared among the charging stations, and the intelligent identification, perception and management of electric vehicles waiting to be charged in the scattered charging stations are realized. The operator can feed back the charging condition in the charging station in time according to the information acquired by the management information 400, and timely maintain and manage each facility in the charging station when a problem occurs.
Fig. 2 is a connection diagram of a charging station intelligent management system according to an embodiment of the present invention, wherein the detection system 100 includes a sensor module 110 and a device sensing module 120. The sensor module 110 is connected to the charging system 200, and is configured to detect environmental information within a range of the charging station. The device sensing module 120 is connected to the charging system 200, and is configured to sense and acquire vehicle information and user information of the charging vehicle. The sensor module 110 is arranged in a charging station range, and is used for detecting environmental information such as temperature, humidity and smoke in the charging station, and a worker can judge whether potential safety hazards exist in the charging station according to the environmental information at any time, so that the potential safety hazards in the charging station can be checked and countermeasures can be taken timely. The device sensing module 120 is connected to the charging system 200, and when there is a vehicle to be charged in the charging station, the device sensing module 120 may obtain the user information of the charging vehicle and the vehicle information correspondingly bound to the user information through sensing. After the device sensing module 120 obtains the vehicle information of the charging vehicle, it may provide the charging vehicle with a relevant charging service according to relevant information such as a battery type and a charging requirement of the vehicle.
In one embodiment, the sensor module 110 includes a temperature sensor (not shown), a humidity sensor (not shown), a smoke sensor (not shown), and a water leakage sensor (not shown). The temperature sensor is connected to the charging system 200, and is configured to detect ambient temperature information in the charging station and transmit the ambient temperature information to the charging system 200. The humidity sensor is connected to the charging system 200, and is configured to detect environmental humidity information in the charging station and transmit the environmental humidity information to the charging system 200. The smoke sensor is connected to the charging system 200, and is configured to detect smoke concentration information in the charging station and transmit the smoke concentration information to the charging system 200. The water leakage sensor is connected to the charging system 200, and is configured to detect water leakage information in the charging station and transmit the water leakage information to the charging system. Temperature sensor, humidity transducer, smoke transducer and the sensor that leaks are installed respectively in the charging station for realize carrying out information detection and data acquisition to the factor that probably causes dangerous incident such as humiture, smog, the water leakage in the station, the staff can be right according to relevant data the charging station supervises and manages, has ensured the safe operation of charging station.
In one embodiment, the device sensing module 120 includes an RFID module (not shown) connected to the charging system 200, and is configured to read user information on a user IC card, match a user identity according to the user information, and obtain corresponding vehicle information. The device sensing module 120 utilizes an RFID technology, and an RFID (Radio Frequency Identification) is one of automatic Identification technologies, and performs non-contact bidirectional data communication in a Radio Frequency manner, and reads and writes a recording medium (an electronic tag or a Radio Frequency card) in the Radio Frequency manner, thereby achieving the purpose of identifying a target and exchanging data. When a vehicle needing to be charged is in the charging station, a user can use the IC card to activate a charging service. When the user IC card is swiped on the charging pile, the RFID reader module in the RFID module transmits a reading signal to the vehicle electronic tag and acquires user information, and vehicle information correspondingly bound with the user information at any time can be acquired according to the user information. Meanwhile, the information on the user IC card is transmitted to the charging system 200 for information processing, the data read out by the RFID module is collated with the charging user information of the electric automobile, and after the user identification is associated, power-up preparation is carried out. After the charging system 200 acquires the vehicle information of the charging vehicle, it may provide the charging vehicle with related charging services according to the related information such as the battery type and the charging requirement of the vehicle, so as to fully meet the charging requirement of the user.
In one embodiment, the charging system 200 includes at least one charging post 210 and a charging control module 220. The charging pile 210 is connected to the device sensing module 120, and is configured to charge the charging vehicle according to the vehicle information. The charging control module 220 is respectively connected to the sensor module 110, the charging pile 210 and the communication system 300, and is configured to collect the environmental information, the user information, the vehicle information and the battery information of the charging pile 210 and transmit the environmental information, the user information, the vehicle information and the battery information to the management center 400 through the communication system 300.
Fig. 3 is an architecture diagram of a charging control module according to an embodiment of the present invention, in this embodiment, a main control chip of the charging control module 220 in the electric vehicle charging station adopts a 32-bit processor of ARM core-MO, and the ARM core-MO processor has advantages of small processing core and storage system, high operating efficiency, and strong processing capability. In addition, ARM cutex-MO has 3 power management modes, has good energy consumption efficiency, can satisfy controller nvic (new Vectored Interrupt controller) for high-speed critical fast Interrupt vector control, and supports Serial peripherals such as UART (Universal Asynchronous Receiver/Transmitter), SPI (Serial Peripheral Interface) controller and I2C (Inter-Integrated Circuit) bus Interface, and can provide system clock from main crystal oscillator and internal RC oscillator to generate various packaging options. The ARM Cortex-MO has two UART interfaces and is also provided with a USB (Universal Serial Bus) interface.
In this embodiment, the UART 1 interface is configured to complete communication between at least one charging pile 210 and the RFID module of the device sensing module 120, and after the charging pile 210 acquires the vehicle information of the charging vehicle, the charging pile can provide a related charging service for the charging vehicle according to the battery type of the vehicle, the charging requirement, and other related information, so as to fully meet the charging requirement of the user. The Cortex-MO module may obtain vehicle and user information identified by the RFID module. The UART2 interface is mainly used to implement communication with the EnOcean module and the WiFi module to implement transmission of collected data to the management center 400.
In one embodiment, the charging system 200 further includes a display module (not shown) connected to the charging control module 220 for displaying the battery information, the vehicle information and the user information. The Cortex-MO module is provided with a display lamp, an alarm, a liquid crystal display screen and other modules, in the embodiment, the display module in the Cortex-MO module is used for displaying the battery information, the vehicle information and the affiliated user information, such as the residual capacity of the battery, the performance parameters of the battery and the information paid on the user IC, so that the user can visually and clearly know the charging condition, the charging cost and other information of the charging vehicle, and the use experience of the user is improved.
In one embodiment, the communication system 300 includes an EnOcean module 310, a communication protocol conversion module 320, and a WiFi module 330. The EnOcean module 310 is connected to the charging system 200, and configured to receive the environment information, the user information, the vehicle information, and the battery information. The communication protocol conversion module 320 is connected to the EnOcean module 310, and is configured to convert the EnOcean protocol into a TCP/IP protocol and a WiFi protocol. The WiFi module 330 is connected to the communication protocol conversion module 320, and is configured to transmit the environment information, the user information, the vehicle information, and the battery information to the management center 400.
EnOcean is an ultra-low power consumption short-distance wireless communication technology based on energy collection and is applied to indoor energy collection. The module based on the EnOcean technology has the characteristics of high-quality wireless communication, energy collection and conversion and ultra-low power consumption, the communication protocol is very simplified, a handshake-free communication mechanism is adopted, and compared with other wireless communication technologies, the module has lower power consumption and higher efficiency. The EnOcean module 310 can also provide energy for the module through small energy in the nature of the mobile phone, making the module battery-free and maintenance-free. The UART2 interface of the Cortex-MO module communicates with the EnOcean module 310 and the WiFi module 330, so as to realize information transmission between the collected data. The sensor module installed in the charging station detects information and collects data of dangerous factors such as temperature, humidity, smoke, building books and the like in the station, and the RFID module senses and acquires the user information and the vehicle information and transmits signals in the sensor node collection station and the vehicle information data collected by the RFID module to the management center 400 through the communication system 300.
And the data such as the environment information, the user information, the vehicle information, the battery information and the like are processed by the data processing unit of the CORTEX-MO processor and then sent to the data transmission unit of the EnOcean module 310. The data is packaged for the second time through the communication protocol conversion module 320 based on the chip driver of the CORTEX-MO again, and the EnOcean protocol is converted into the TCP/IP protocol and the WiFi protocol to realize wireless communication between the communication modules. The WiFi module 330 is a WG 1300-BO module of a TCP/IP protocol of JorJin corporation, and after being converted by the communication protocol conversion module 320, the WiFi module 330 can start a general IP connection anytime and anywhere, and is flexibly used with a low-memory, low-cost, low-power-consumption microcontroller system, and data such as the environment information, the user information, the vehicle information, and the battery information are transmitted to the management center 400 through an antenna.
The communication system 300 adopts a wireless communication technology based on an EnOcean module and a WiFi module for data transmission, and the communication system 300 has short response time and low failure rate. Performance tests on the communication systems 300 show that when information of a plurality of charging piles is transmitted, response time fluctuation among the communication systems 300 is small, and stability performance is good.
In one embodiment, the management center 400 includes an upper computer 410, connected to the communication system 300, and configured to analyze the environmental information, the user information, the vehicle information, and the battery information, monitor a condition in the charging station in real time, and maintain normal operation of devices in the charging station. The upper computer 410 sends communication messages by utilizing a certain communication protocol to establish communication connection through the WiFi module, and acquires data such as the environment information, the user information, the vehicle information and the battery information. The monitoring personnel of management center can be according to the host computer 410 show environmental information the user information vehicle information and data such as battery information has a audio-visual understanding to environmental information in the charging station, the battery information of filling electric pile and the vehicle information, the user information that are charging, through host computer 410 is to the processing of information, can in time feed back information to monitoring personnel, lets monitoring personnel in time maintain the facility in the charging station, and it is more convenient to concentrate the management of each charging station of distribution in different positions, is convenient for enlarge the scale and the quantity of charging station.
In one embodiment, the management center 400 further includes a cloud 420, which is respectively connected to the upper computer 410 and the communication system 300, and is configured to store the collected historical data of the environmental information, the user information, the vehicle information, and the battery information. The cloud 420 can store a large amount of data, and the cloud 420 can store historical data information collected by the management center 400, so that the upper computer 410 of the management center 400 can analyze and process data uploaded in real time and historical data conveniently. Each charging station uploads the acquired environmental information, the acquired user information, the acquired vehicle information and the acquired battery information to the cloud 420, so that information sharing among the charging stations can be realized, and monitoring personnel in a management center can monitor charging conditions in the stations in real time and maintain equipment in time.
In one embodiment, the charging station intelligent management system further includes an IC card management system 500 connected to the cloud 420 for establishing or updating the user information and/or the vehicle information. When a new user needs to use the IC card to obtain the charging service in the charging station, the user information of the new user may be entered through the IC card management system 500, the vehicle information of the new user is bound with the user information, and the user information and the vehicle information are uploaded to the cloud 420. Similarly, when the user information or the vehicle information of the existing user in the charging station needs to be updated, the user information or/and the vehicle information of the user can be updated through the IC card management system 500, and the updated user information and the updated vehicle information are uploaded to the cloud 420. The cloud 420 stores and manages the user information and the vehicle information in a unified manner.
After the controller NVIC of the Cortex-MO microcontroller completes initialization operation on the system and configuration on a corresponding peripheral port, the intelligent charging station management system provided by the invention utilizes the detection system to perform induction acquisition on environmental information in the charging station, user information of a charging vehicle and vehicle information. The data processing unit of the CORTEX-MO processor processes environment information in the charging station, acquired by a plurality of different sensors, user information and vehicle information of the charging vehicle, acquired by the RFID, and sends the processed information to the data transmission unit of the EnOcean module 310. The data is packaged for the second time through the communication protocol conversion module 320 based on the chip driver of the CORTEX-MO again, and the EnOcean protocol is converted into the TCP/IP protocol and the WiFi protocol to realize wireless data transmission between the communication modules. The communication system 300 transmits data such as the environment information, the user information, the vehicle information, and the battery information to the management center 400 through an antenna. The communication system 300 establishes a multifunctional wireless communication network by using the EnOcean technology and the WiFi technology, forms a wireless information sharing pool in a charging station, and uploads the wireless information sharing pool to the management center 400, so that the management center 400 can transparently and intelligently monitor and manage each charging station.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An intelligent management system of a charging station is characterized by comprising a detection system, a charging system, a communication system and a management center; the detection system is connected with the charging system; the charging system is connected with the management center through the communication system;
the detection system is used for detecting environmental information, user information of the charging vehicle and vehicle information in the range of the charging station and transmitting the environmental information, the user information and the vehicle information to the charging system;
the charging system is used for charging the charging vehicle according to the vehicle information and transmitting the environment information, the user information, the vehicle information and the battery information of the charging system to the management center through the communication system;
the management center is used for analyzing the environment information, the user information, the vehicle information and the battery information, monitoring the conditions in the charging station in real time and maintaining the normal operation of equipment in the charging station.
2. The charging station intelligent management system of claim 1, wherein the detection system comprises:
the sensor module is connected with the charging system and used for detecting environmental information in the range of the charging station;
and the equipment sensing module is connected with the charging system and used for sensing and acquiring the vehicle information and the user information of the charging vehicle.
3. The charging station intelligent management system of claim 2, wherein the sensor module comprises:
the temperature sensor is connected with the charging system and used for detecting the environmental temperature information in the charging station and transmitting the environmental temperature information to the charging system;
the humidity sensor is connected with the charging system and used for detecting the environmental humidity information in the charging station and transmitting the information to the charging system;
the smoke sensor is connected with the charging system, is used for detecting smoke concentration information in the charging station and transmits the smoke concentration information to the charging system;
and the water leakage sensor is connected with the communication system and used for detecting water leakage information in the charging station and transmitting the water leakage information to the charging system.
4. The charging station intelligent management system of claim 2, wherein the device awareness module comprises:
and the RFID module is connected with the charging system and used for reading the user information on the user IC card, matching the user identity according to the user information and acquiring corresponding vehicle information.
5. The charging station intelligent management system of claim 4, wherein the charging system comprises:
the charging pile is connected with the equipment sensing module and used for charging the charging vehicle according to the vehicle information;
and the charging control module is respectively connected with the sensor module, the charging pile and the communication system and used for collecting the environmental information, the user information, the vehicle information and the battery information of the charging pile and transmitting the environmental information, the user information, the vehicle information and the battery information to the management center through the communication system.
6. The charging station intelligent management system of claim 5, wherein the charging system further comprises:
and the display module is connected with the charging control module and used for displaying the battery information, the vehicle information and the user information.
7. The charging station intelligent management system according to any one of claims 1 to 6, wherein the communication system includes:
the EnOcean module is connected with the charging system and used for receiving the environment information, the user information, the vehicle information and the battery information;
the communication protocol conversion module is connected with the EnOcean module and is used for converting the EnOcean protocol into a TCP/IP protocol and a WiFi protocol;
and the WiFi module is connected with the communication protocol conversion module and is used for transmitting the environment information, the user information, the vehicle information and the battery information to the management center.
8. The charging station intelligent management system according to claim 1, wherein the management center includes:
and the upper computer is connected with the communication system and is used for analyzing the environmental information, the user information, the vehicle information and the battery information, monitoring the conditions in the charging station in real time and maintaining the normal operation of equipment in the charging station.
9. The charging station intelligent management system of claim 8, wherein the management center further comprises:
and the cloud end is respectively connected with the upper computer and the communication system and is used for storing the collected historical data of the environment information, the user information, the vehicle information and the battery information.
10. The charging station intelligent management system of claim 9, further comprising:
and the IC card management system is connected with the cloud end and used for establishing or updating the user information and/or the vehicle information.
CN202010617080.0A 2020-07-01 2020-07-01 Intelligent management system for charging station Pending CN111951474A (en)

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Cited By (3)

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