CN206099524U - Solar photovoltaic energy storage electric vehicle charging station control system - Google Patents

Abstract

The utility model discloses a solar photovoltaic energy storage type electric vehicle charging station control system, comprising: a data acquisition module, an intelligent control module and a communication module; the data acquisition module, the intelligent control module and the communication module are connected in pairs; the data The acquisition module collects various parameters and data, and sends them to the intelligent control module; the intelligent control module receives the data from the data acquisition module, processes and analyzes the data, and executes corresponding actions; the communication module intelligently The final result of the control module is sent out. Through the above method, the utility model can well realize the optimal control of the photovoltaic energy storage charging station; at the same time, the system has the advantages of good controllability, excellent performance, and strong adaptability, and is especially suitable for this kind of multi-energy comprehensive Application control of complex energy systems.

Description

Solar photovoltaic energy storage electric vehicle charging station control system

technical field

The utility model relates to an improvement of an electric vehicle charging station control system, in particular to a solar photovoltaic energy storage type electric vehicle charging station control system that adopts DSP digital control and modularization technology to make the system more intelligent and expandable. .

Background technique

Electric vehicles have the advantages of environmental protection, energy saving, and green travel. With the advancement of technology, their applications are increasing. Unlike traditional fuel vehicles, electric vehicles are powered by electricity. Therefore, it is necessary to build a certain number of photovoltaic charging stations to meet the new demand for electric vehicle charging. The construction of conventional charging stations has problems such as high cost of power expansion and limited power sources. Combined with the application of new solar energy power generation, in places with good light intensity, the construction of new solar photovoltaic energy storage electric vehicle charging stations can be a good solution. this problem. At the same time, since the solar photovoltaic energy storage electric vehicle charging station involves comprehensive cross-systems such as photovoltaic power generation, energy storage technology, and charging technology, its control system is more complicated than that of a simple charging station. Therefore, it is necessary to develop corresponding control systems. system.

Utility model content

The technical problem mainly solved by the utility model is to provide a control management system and control method, which can well realize the optimal control of the photovoltaic energy storage charging station; at the same time, the system has good controllability, excellent performance and strong adaptability etc. It is especially suitable for the solar photovoltaic energy storage type electric vehicle charging station control system for the application control of this multi-energy comprehensive complex energy system.

In order to solve the above technical problems, the solar photovoltaic energy storage type electric vehicle charging station control system adopted by the utility model includes: a data acquisition module, an intelligent control module and a communication module; the data acquisition module, the intelligent control module and the communication module are paired interconnected; the data acquisition module collects various parameters and data, and sends them to the intelligent control module; the intelligent control module receives data from the data acquisition module, processes and analyzes the data, and executes corresponding actions; The communication module sends out the final result of the intelligent control module.

Preferably, the acquisition sub-module of the data acquisition module of the control system includes: environmental parameters, solar photovoltaic power generation data, energy storage system data, charging output data and complementary grid data; the environmental parameter acquisition sub-module is used to collect illuminance, Temperature and humidity, particulate matter environmental data; the solar photovoltaic power generation data collection sub-module is used to collect photovoltaic real-time power generation data; the energy storage system data collection sub-module is used to collect battery power, voltage and temperature parameter information; the The charging output data collection sub-module is used to collect the parameter information of the charging state and the charging switching state; the complementary power grid data collection sub-module is used for monitoring electric parameters of the power grid.

Preferably, the sub-modules of the intelligent control module include: data reception, correction of system working real-time clock data, data display, data log and storage, and external interface.

Preferably, the communication module includes: an internal communication system and an external communication system; the internal communication system preferably adopts power carrier communication; the external communication system adopts RS485-MODBUS or wireless communication.

The beneficial effects of the utility model are: the solar photovoltaic energy storage type electric vehicle charging station control system described in the utility model adopts digital control and modularization technology, and is targeted at the control requirements of the solar photovoltaic energy storage electric vehicle charging station Developed its corresponding control management system; and provided a practical control method, which can well realize the optimal control of photovoltaic energy storage charging stations; at the same time, the system has the advantages of good controllability, excellent performance, and strong adaptability , especially suitable for the application control of this multi-energy integrated complex energy system.

Description of drawings

Accompanying drawing 1 is the structural diagram of the solar photovoltaic energy storage type electric vehicle charging station control system described in the utility model.

Accompanying drawing 2 is the flowchart of the control method of the solar photovoltaic energy storage type electric vehicle charging station control system described in the utility model.

Among them: 1. Data acquisition module; 2. Intelligent control module; 3. Communication module; 11. Environmental parameters; 12. Solar photovoltaic power generation data; 13. Energy storage system data; 14. Charging output data; 15. Complementary grid data; 21. Data reception; 22. Correction of real-time clock data; 23. Data display; 24. Data log and storage; 25. External interface; 31. Internal communication system; 32. External communication system.

detailed description

The preferred embodiments of the utility model will be described in detail below in conjunction with the accompanying drawings, so that the advantages and characteristics of the utility model can be more easily understood by those skilled in the art, so that the protection scope of the utility model can be defined more clearly .

Please refer to Fig. 1 and Fig. 2, the utility model embodiment comprises:

The solar photovoltaic energy storage type electric vehicle charging station control system includes: a data acquisition module 1, an intelligent control module 2 and a communication module 3; the data acquisition module 1, the intelligent control module 2 and the communication module 3 are connected in pairs; the The data collection module 1 collects various parameters and data, and sends it to the intelligent control module 2; the intelligent control module 2 receives data from the data collection module 1, processes the data after analyzing the data, and executes corresponding actions; The communication module 3 sends out the final result of the intelligent control module 2.

The acquisition sub-module of the data acquisition module 1 includes: environmental parameters 11, solar photovoltaic power generation data 12, energy storage system data 13, charging output data 14, and complementary grid data 15; the environmental parameter 11 acquisition sub-module is used to collect illuminance , temperature and humidity, particulate matter environmental data; the solar photovoltaic power generation data collection submodule 12 is used to collect photovoltaic real-time power generation data; the energy storage system data collection submodule 13 is used to collect battery power, voltage and temperature parameter information The charging output data 14 collection sub-module is used to collect the parameter information of the charging state and the charging switching state; the complementary power grid data 15 collection sub-module is used for power grid parameter monitoring; the intelligent control module 2 sub-modules include: Data receiving 21, correction 22 to system working real-time clock data, data display 23, data log and storage 24 and external interface 25; described communication module 3 comprises: internal communication system 31 and external communication system 32; described internal communication system 31 preferably adopts power carrier communication; the external communication system 32 adopts RS485-MODBUS or wireless communication.

The control method of the solar photovoltaic energy storage type electric vehicle charging station control system, the specific steps are as follows:

Step 1: Collect environmental parameters, solar photovoltaic power generation, energy storage system and complementary grid data, and judge whether the energy storage system can be charged according to the data:

Step (1-1) If the solar photovoltaic power generation has electric energy output: when the energy storage system needs to be charged, the electric energy of the solar photovoltaic power generation system directly charges the energy storage system through the control module; when the energy storage system is in a fully charged state, then Determine whether the complementary grid is connected, and feed the solar power into the grid;

Step (1-2) If the solar photovoltaic power generation has no electric energy output: When the energy storage system needs to be charged and the grid has power, judge the SOC of the energy storage system. If the SOC is lower than the set value S _SET %, replenish it in time according to the state of grid power Charging; if the SOC is higher than the set value S _SET %, wait for the power grid to be in a low valley state for power supplementation; when the energy storage system needs to be charged and the grid is out of power, judge the SOC of the energy storage system, if the SOC is lower than the set value S _SET %, it will give an alarm prompt; if the SOC is higher than the set value S _SET %, it will be prompted by the indicator light that is always on; when the energy storage system is fully charged and does not need to be charged, the system enters the standby state;

Step 2: Collect charging output data, and judge whether to switch and control the charging output device according to the data:

Step (2-1) If there is charging request data input: when the power of the energy storage system reaches or exceeds the power S _CHARGE % suitable for charging the request, the energy storage system will directly charge the electric vehicle; when the power of the energy storage system does not reach Or when it is lower than the S _CHARGE % of the electricity that is suitable for charging, if there is photovoltaic power generation output or complementary mains power, the electric vehicle will be charged by photovoltaic power generation directly or through complementary charging;

Step (2-2) If there is no charging request data input: the charging indicator displays the number and quantity of available charging equipment, and displays the charging data information through the display system;

Step 3: Perform data communication according to the settings: If there is a communication data request command, analyze the command, execute the corresponding action and return the corresponding data information according to the command requirement.

The beneficial effects of the utility model are: the solar photovoltaic energy storage type electric vehicle charging station control system described in the utility model adopts digital control and modularization technology, and is targeted at the control requirements of the solar photovoltaic energy storage electric vehicle charging station Developed its corresponding control management system; and provided a practical control method, which can well realize the optimal control of photovoltaic energy storage charging stations; at the same time, the system has the advantages of good controllability, excellent performance, and strong adaptability , especially suitable for the application control of this multi-energy integrated complex energy system.

The above are only specific application examples of the utility model, and do not constitute any limitation to the protection scope of the utility model. All technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the utility model.

Claims (4)

1. photovoltaic energy storage type electric automobile charging station control system, it is characterised in that：Including：Data acquisition module, intelligence Energy control module and communication module；The data acquisition module, intelligent control module and communication module two are two interconnected；It is described Data collecting module collected various parameters and data, and send it to intelligent control module；The intelligent control module is received Data from data acquisition module perform corresponding action to processing after Data Management Analysis；The communication module The final result of intelligent control module is sent.

2. photovoltaic energy storage type electric automobile charging station control system according to claim 1, it is characterised in that：Institute Stating the collection submodule of the data acquisition module of control system includes：Ambient parameter, solar energy power generating data, energy-storage system Data, charging output data and complementary electric network data；Ambient parameter collection submodule be used to gathering illuminance, humiture, Particulate matter environmental data；The solar energy power generating data-acquisition submodule is used to gather the real-time generated energy data of photovoltaic；Institute Energy-storage system data-acquisition submodule is stated for gathering the parameter information of electricity, voltage and the temperature of battery；The output of charging Data-acquisition submodule is used to gather charged state, the parameter information of charging switching state；Complementary electric network data collection Module is for the monitoring of electrical network electrical quantity.

3. photovoltaic energy storage type electric automobile charging station control system according to claim 1, it is characterised in that：Institute The intelligent control module submodule stated includes：Correction, data display, the number of data receiver, real time clock data that system is worked According to daily record and storage, external interface.

4. photovoltaic energy storage type electric automobile charging station control system according to claim 1, it is characterised in that：Institute Stating communication module includes：Intercom system and Exterior Communications System；The intercom system is preferentially logical using power carrier Letter；The Exterior Communications System is using RS485-MODBUS or communication.