WO2022032613A1

WO2022032613A1 - Control system for 5g technology on distributed energy regulation

Info

Publication number: WO2022032613A1
Application number: PCT/CN2020/109070
Authority: WO
Inventors: 吴晋
Original assignee: 江苏天人工业互联网研究院有限公司
Priority date: 2020-08-14
Filing date: 2020-08-14
Publication date: 2022-02-17

Abstract

A control system for 5G technology on distributed energy regulation. A power source switching module and each power supply apparatus are respectively in communication with a monitoring end by means of a 5G data communication module; each user end is connected, as required, to a corresponding power supply apparatus by means of the power source switching module; the monitoring end collects the current electric quantity of each power supply apparatus by means of the 5G data communication module, and compiles statistics on energy consumption data of each user end; an analysis processing module provides an energy saving scheme for each user end according to a received power utilization situation and energy consumption data of the user end, and an electric quantity situation of the power supply apparatus; and if the current electric quantity of a certain power supply apparatus is less than a preset safety threshold value or the power supply apparatus suffers a fault, the monitoring end controls the power source switching module to switch a corresponding user end to another power supply apparatus.

Description

Control system of 5G technology in distributed energy regulation

technical field

The invention belongs to the energy regulation technology, and specifically relates to a control system for the regulation of distributed energy by 5G technology.

Background technique

Distributed energy is a system that determines the method and capacity by maximizing resources and environmental benefits, and determines the scale according to the optimization of terminal energy utilization efficiency; using advanced energy conversion technology, try to reduce the emission of pollutants, and decentralize the emission to facilitate the surrounding area. absorption by vegetation. At the same time, distributed energy can take advantage of its small emissions and low emission density to realize resource reuse of major emissions, such as: fertilizing emitted gas; ultimately relying on the most advanced information technology, using intelligent monitoring, network Group control and remote control technology are used to realize unattended on-site.

The existing distributed energy technologies have more or less the following problems: high cost of power and energy conversion equipment, low conversion efficiency; intelligent control and group control scheduling cannot be optimized.

SUMMARY OF THE INVENTION

Purpose of the invention: The purpose of the present invention is to solve the deficiencies in the prior art, and to provide a control system for the regulation of distributed energy by 5G technology. Wireless transmission sharing function.

Technical solution: A control system for 5G technology in distributed energy regulation of the present invention includes a number of user terminals, a power switching module, a 5G data communication module, a monitoring terminal and a number of power supply devices. The power supply switching module and each power supply device pass through respectively. The 5G data communication module and the monitoring terminal are connected to each other, and each user terminal is connected to the corresponding power supply device through the power switching module as required; the monitoring terminal is provided with a data acquisition module, a power usage statistics module and an analysis and processing module, and the data acquisition module passes 5G data. The communication module collects the current power of each power supply module, and the power usage statistics module collects statistics on the energy consumption data of each user terminal through the 5G data communication module, and analyzes the power consumption, energy consumption data and the power supply of the power supply device at the door. If the current power of a power supply device is lower than the preset safety threshold or the power supply device fails, the monitoring terminal controls the power switching module to switch other power supply devices for the corresponding user terminal.

The above-mentioned control system for distributed energy regulation has a flexible power supply mode and can realize different power supply devices through power switching. It not only has the effect of realizing distributed energy, but also can perform data collection, control and manage the corresponding user terminals and power supply devices, and finally realize the multi-to-multiple power supply. The effect of communication and monitoring of various devices.

Further, the 5G data communication module includes a 5G wired communication connection and a 5G wireless communication module.

Further, the power switching module is provided with an information receiving and obtaining module and a sending module, the information receiving and obtaining module receives the control command from the monitoring terminal, and then sends the control command to the corresponding power supply equipment through the sending module.

Further, the power supply device includes a distributed photovoltaic generator, a solar battery, a gas-fired power generation device

Further, the monitoring terminal is also provided with a power consumption display module, and the power consumption display module displays the power change data of each user terminal and the power supply device.

Further, each power supply device is provided with a temperature sensor, and the temperature data information collected by the temperature sensor is transmitted to the monitoring terminal through the 5G data communication module. When the monitoring terminal determines that the corresponding power supply device is overloaded and overheated, it sends a switching instruction to the power switching module.

Further, the gas power generation device is equipped with a pressure transmitter, the pressure transmitter detects the current gas pressure in real time, and transmits it to the monitoring terminal through the 5G data communication module. When the monitoring terminal judges that the pressure value exceeds the preset threshold, That is, it is judged that the gas power generation device is faulty, and a switching command is immediately sent to the power switching module.

Further, the monitoring terminal is also provided with an alarm assembly, the power supply devices corresponding to each alarm assembly are connected in series, and each alarm assembly is arranged in parallel; when the monitoring terminal determines that the power supply device is faulty, the corresponding alarm assembly issues an alarm.

Further, the alarm assembly includes a buzzer and a warning light.

Further, it also includes a backup power supply module. When the monitoring terminal determines that each power supply device is faulty or analyzes that the remaining power is insufficient, the backup power supply module is activated, and the backup power supply module temporarily supplies power to each module and issues an alarm.

Beneficial effects: the present invention provides powerful technical support for massive access and punctual real-time data reporting for the collection of electricity consumption information through the 5G communication network, assists the system to complete the collection, processing and real-time monitoring of electricity consumption information, and realizes automatic collection of electricity consumption information and abnormal measurement. Monitoring, power quality monitoring, intelligent electrical equipment information interaction and other functions. The invention intelligently manages the supply and demand between the user terminal and the power supply device, guarantees the actual demand of the user and maintains the operation of each power supply device within the load, so as to meet the emergency disposal requirements in the emergency of the power grid.

Description of drawings

FIG. 1 is a schematic diagram of the system in the present invention.

detailed description

The technical solutions of the present invention are described in detail below, but the protection scope of the present invention is not limited to the embodiments.

As shown in FIG. 1 , a control system for 5G technology in distributed energy regulation according to the present invention includes several user terminals, a power switching module, a 5G data communication module, a monitoring terminal and several power supply devices, and a power switching module. and each power supply device are respectively connected with the monitoring terminal through the 5G data communication module, and each user terminal is connected to the corresponding power supply device through the power switching module as required; the monitoring terminal is provided with a data acquisition module, a power usage statistics module and an analysis and processing module, The data acquisition module collects the current power of each power supply module through the 5G data communication module, and the power usage statistics module collects statistics on the energy consumption data of each user terminal through the 5G data communication module, and analyzes the power consumption and energy consumption of the door according to the received user terminal. The data and the power status of the power supply device provide energy-saving solutions for each client; if the current power of a power supply device is lower than the preset safety threshold or the power supply device fails, the monitoring terminal controls the power switching module to switch other power supply devices for the corresponding client .

In one embodiment of the present invention, the 5G data communication module includes a 5G wired communication connection and a 5G wireless communication module, and the 5G data communication module can quickly and efficiently transmit corresponding data and execute instructions within the system.

In one embodiment of the present invention, the power switching module is provided with an information receiving and obtaining module and a sending module, the information receiving and obtaining module receives the control command from the monitoring terminal, and then sends the control command to the corresponding power supply device through the sending module. Once the instruction of the monitoring terminal is received through the power switching module through the 5G data communication module, the switching of the power supply device is performed immediately.

In an embodiment of the present invention, the power supply device includes a distributed photovoltaic generator, a solar battery, and a gas-fired power generation device. The monitoring terminal is also provided with a power consumption display module, and the power consumption display module displays the power change data of each user terminal and the power supply device. Of course, in this embodiment, other energy supply devices may also be connected to provide various options.

In order to improve the service life and accuracy of the entire system, in an embodiment of the present invention, a temperature sensor is provided on each power supply device, and the temperature data information collected by the temperature sensor is transmitted to the monitoring terminal through the 5G data communication module. When the monitoring terminal judges When the corresponding power supply device is overloaded and overheated, a switching command is sent to the power switching module.

The above-mentioned gas power generation device is equipped with a pressure transmitter. The pressure transmitter detects the current gas pressure in real time and transmits it to the monitoring terminal through the 5G data communication module. When the monitoring terminal judges that the pressure value exceeds the preset threshold, it judges the gas pressure. When the power generation device fails, immediately send a switching command to the power switching module.

In order to facilitate the staff to deal with unexpected situations in time, the monitoring terminal is also equipped with an alarm component. The power supply devices corresponding to each alarm component are connected in series, and each alarm component is set in parallel; when the monitoring terminal determines that the power supply device is faulty, the corresponding The alarm component emits an alarm. Examples of alarm components include buzzers and warning lights.

In an embodiment of the present invention, the control system further includes a backup power supply module. When the monitoring terminal determines that each power supply device is faulty or analyzes that the remaining power is insufficient, the backup power supply module is activated, and the backup power supply module temporarily supplies power to each module. , and an alert

It can be seen from the above embodiments that the present invention has multiple modes of photovoltaic power generation, solar power generation and gas power generation, and the monitoring terminal monitors the power consumption of the user terminal and the power consumption of each power supply device in real time, and quickly conducts data information through the 5G communication module. transmission, so that the monitoring terminal can quickly make a power supply switching scheme.

Claims

A control system for 5G technology in the regulation of distributed energy, which is characterized in that it includes several user terminals, a power switching module, a 5G data communication module, a monitoring terminal and several power supply devices, and the power switching module and each power supply device respectively pass 5G data. The communication module and the monitoring terminal are connected to each other, and each user terminal is connected to the corresponding power supply device through the power switching module as required; the monitoring terminal is provided with a data acquisition module, a power usage statistics module and an analysis and processing module, and the data acquisition module is connected through the 5G data communication module. Collect the current power of each power supply module, and the power usage statistics module collects statistics on the energy consumption data of each user terminal through the 5G data communication module, and analyzes the power consumption and energy consumption data of the user terminal and the power supply of the power supply device received at the door. Provide energy-saving solutions for each user terminal; if the current power of a power supply device is lower than a preset safety threshold or the power supply device fails, the monitoring terminal controls the power switching module to switch other power supply devices for the corresponding user terminal.
The control system for 5G technology in distributed energy regulation according to claim 1, wherein the 5G data communication module includes a 5G wired communication connection and a 5G wireless communication module.
The control system for 5G technology in distributed energy regulation according to claim 1, wherein the power switching module is provided with an information receiving and obtaining module and a sending module, and the information receiving and obtaining module receives a control command from the monitoring terminal, Then, the control instruction is sent to the corresponding power supply device through the sending module.
The control system for 5G technology in distributed energy regulation according to claim 1, wherein the power supply device comprises a distributed photovoltaic generator, a solar battery, and a gas power generation device.
The control system for 5G technology in distributed energy regulation according to claim 1, wherein the monitoring terminal is further provided with a power consumption display module, and the power consumption display module displays the power change data of each user terminal and power supply device .
The control system for 5G technology in distributed energy regulation according to claim 1, wherein each power supply device is provided with a temperature sensor, and the temperature data information collected by the temperature sensor is transmitted to the monitoring terminal through the 5G data communication module , when the monitoring terminal determines that the corresponding power supply device is overloaded and overheated, it sends a switching command to the power switching module.
The control system for 5G technology in distributed energy regulation according to claim 4, characterized in that: the gas power generation device is equipped with a pressure transmitter, the pressure transmitter detects the current gas pressure in real time, and passes the 5G data The communication module is transmitted to the monitoring terminal. When the monitoring terminal judges that the pressure value exceeds the preset threshold, it is judged that the gas power generation device is faulty, and immediately sends a switching command to the power switching module.
The control system for 5G technology in distributed energy regulation according to claim 1, characterized in that: the monitoring terminal is further provided with an alarm component, the power supply devices corresponding to each alarm component are connected in series, and each alarm component is connected in series. Parallel setting; when the monitoring terminal judges that the power supply device is faulty, the corresponding alarm component will issue an alarm.
The 5G technology control system for distributed energy regulation according to claim 8, wherein the alarm component includes a buzzer and a warning light.
The control system for 5G technology in distributed energy regulation according to claim 1, further comprising a backup power supply module, when the monitoring terminal determines that each power supply device is faulty or the analysis shows that the remaining power is insufficient, the backup power supply module is activated. The power supply module temporarily supplies power to each module through the standby power supply module and issues an alarm.