CN111338247A - Simulation control system and method based on Internet of things - Google Patents

Abstract

The invention provides an Internet of things-based analog control system and method, which comprises a Central Processing Unit (CPU) and a data processing unit, wherein the CPU is used for processing calculation and data processing in a system and at least comprises the CPU, an internal memory and a hard disk; the safety monitoring module is used for managing safety monitoring equipment; the data processing module is used for processing, storing, outputting and displaying all data in the system; the terminal user module is used for managing terminal equipment connected with the system; the central processing unit is respectively and interactively connected with the safety monitoring module, the data processing module and the terminal user module, and the central processing unit is respectively and interactively connected with the intelligent electric power and electric power system and the solar energy electric power grid-connected system. The invention can realize real-time monitoring of power dispatching condition, integration of power resources, reduction of enterprise cost, and realization of user understanding of power grid state parameters and receiving of various alarm information by using terminal mobile communication equipment.

Description

Simulation control system and method based on Internet of things

Technical Field

The invention relates to the field of Internet of things, in particular to an Internet of things-based analog control system and method.

Background

The internet of things (IOT) is an information carrier based on the internet, a traditional telecommunication network and the like, and enables all common physical objects capable of being independently addressed to form an interconnected network, the application field of the internet of things relates to the aspects of the aspects, and the application of the internet of things in the fields of basic facilities such as industry, agriculture, environment, traffic, logistics, electric power and the like effectively promotes the intelligent development of the aspects, limited resources are more reasonably used and distributed;

with the development and scientific progress of the society, the application of the internet of things is gradually applied to the field of power grid monitoring and dispatching, and when the existing internet of things system in the field of power grids is used, the overall effect of the application of the internet of things is not shown due to the fact that all systems are not communicated and connected.

Disclosure of Invention

The technical problem to be solved by the embodiments of the present invention is to provide an analog control system and method based on the internet of things, which solve the technical problem that in the prior art, in the use process of the internet of things system in the power grid field, because each power system is isolated from each other after being networked independently, each system is not completely opened, especially for power grid monitoring and power dispatching.

In one aspect of the present invention, an analog control system based on the internet of things is provided, which includes:

the central processing unit is used for processing calculation and data processing in the system and at least comprises a CPU, an internal memory and a hard disk;

the safety monitoring module is used for managing safety monitoring equipment;

the data processing module is used for processing, storing, outputting and displaying all data in the system;

the terminal user module is used for managing terminal equipment connected with the system;

the central processing unit is respectively and interactively connected with the safety monitoring module, the data processing module and the terminal user module, and the central processing unit is respectively and interactively connected with the intelligent electric power and electric power system and the solar energy electric power grid-connected system.

Further, the security monitoring module includes:

the intelligent alarm is used for sending an alarm signal after receiving an alarm command;

the master scheduling monitoring unit is used for managing a scheduling command of equipment in the safety monitoring module and managing the running condition of the monitoring equipment;

the power distribution monitoring equipment is used for monitoring the power distribution equipment in the management system, acquiring and displaying various operation switching value states and electric quantity parameters of the system in real time, completely mastering the real-time operation state of the power distribution system, finding out faults in time and making corresponding decisions and treatments;

the power transformation monitoring equipment is used for monitoring the power transformation equipment in the management system, acquiring and displaying various operation switching value states and electric quantity parameters of the system in real time, completely mastering the real-time operation state of the power transformation and distribution system, finding out faults in time and making corresponding decisions and treatments;

the intelligent camera is used for acquiring image information required by the system;

the 5G communication module is used for providing a wireless communication channel for other equipment;

the safety monitoring module is connected with the intelligent alarm, the total dispatching monitoring unit, the power distribution monitoring equipment, the power transformation monitoring equipment and the intelligent camera in an interactive mode through the 5G communication module.

Furthermore, the electrical output end of the intelligent power dispatching system is respectively and unidirectionally electrically connected with the power transformation dispatching equipment, the power distribution dispatching equipment, the intelligent power transmission system and the intelligent power storage equipment.

Further, the data processing module comprises;

the data storage unit is used for storing data in the system;

the data analysis unit is used for analyzing and filtering the data in the system and carrying out corresponding classification;

and the data tabulation unit is used for performing index classification on the stored data and outputting the result in a tabular form.

Further, the end user module comprises at least:

the display unit is used for displaying the output form of the system;

the input unit is used for inputting a corresponding information input system;

and the alarm unit is used for entering an alarm response to the alarm command sent by the system.

Correspondingly, the invention also provides an analog control method based on the internet of things, which is realized by the system and comprises the following steps;

step S1, real-time monitoring is carried out on the conditions of the power transmission network and the power station through the cooperation of the terminal mobile communication equipment, the intelligent camera, the power transformation monitoring equipment, the power distribution monitoring equipment, the total dispatching monitoring system and the intelligent alarm;

step S2, controlling the use of a power transformation dispatching device, a power distribution dispatching device, an intelligent power storage device and an intelligent power transmission system in real time through a terminal mobile communication device;

step S3, setting a data processing module and a terminal user module, and monitoring the safety and state conditions of the power transmission network and the power station through the terminal mobile communication equipment;

and step S4, setting safety monitoring equipment, an intelligent power dispatching system, a data processing module and a terminal user module to guarantee the safety of power transmission network and power station monitoring and power dispatching.

Further, in step S1, the matching between the terminal mobile communication device and the intelligent camera, the power transformation monitoring device, the power distribution monitoring device, the total scheduling monitoring system, and the intelligent alarm is specifically that, through the terminal interface, the relevant parameter setting is performed on the developed app/control webpage/terminal software, the system reads the digital signal of the device or outputs various real-time sensor signals, has a database background, is connected with the database to directly read information, compares the read parameter value with the set alarm parameter, and notifies the user through the interface/short message/mail after the alarm parameter device starts to give an alarm; the parameters at least comprise working time, alarm time or numerical value.

Further, in step S1, the real-time monitoring of the power transmission network and the power station is specifically that a camera collects a field picture in real time, and pictures at different angles are shot at regular time and displayed on a terminal device; and collecting parameters of the power distribution monitoring equipment and the dispatching monitoring equipment, and transmitting the parameters to the terminal.

Furthermore, the safety monitoring equipment is provided with a signal conversion module which is used for uniformly converting the transmitted signals into digital signals.

In summary, the embodiment of the invention has the following beneficial effects:

according to the simulation control system and method based on the Internet of things, provided by the invention, the Wifi is arranged in the terminal user module, so that a user can know power grid state parameters and the like and receive various alarm information by using terminal mobile communication equipment, and the power dispatching condition can be monitored in real time; the solar power grid-connected system is controlled through the intelligent power dispatching system, and is merged into a power grid according to the solar power generation condition, so that cheap power is provided for the power grid, power resources are integrated, and the enterprise cost is reduced; through setting up computer display screen, keyboard and mouse, can realize that the user uses above equipment, knows and control power grid state parameter etc. receives various warning information, can also real-time supervision electric power scheduling condition.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is within the scope of the present invention for those skilled in the art to obtain other drawings based on the drawings without inventive exercise.

Fig. 1 is a structural diagram of an internet of things-based analog control system provided by the invention.

Fig. 2 is a schematic diagram of a 5G communication module of an embodiment of the internet of things-based analog control system provided by the invention.

Fig. 3 is a schematic signal processing diagram of a 5G communication module of an embodiment of the analog control system based on the internet of things provided by the invention.

Fig. 4 is a main flow diagram of the simulation control method based on the internet of things provided by the invention.

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.

Fig. 1 is a schematic diagram of an embodiment of an internet of things-based analog control system according to the present invention. In this embodiment, as shown in fig. 1 to 3, an internet of things-based simulation control system includes: the central processing unit is used for processing calculation and data processing in the system and at least comprises a CPU, an internal memory and a hard disk;

the safety monitoring module is used for managing safety monitoring equipment;

the data processing module is used for processing, storing, outputting and displaying all data in the system;

the terminal user module is used for managing terminal equipment connected with the system;

the central processing unit is respectively and interactively connected with the safety monitoring module, the data processing module and the terminal user module, and the central processing unit is respectively and interactively connected with the intelligent electric power and electric power system and the solar energy electric power grid-connected system.

In a specific embodiment, the security monitoring module includes:

the intelligent alarm is used for sending an alarm signal after receiving an alarm command;

the master scheduling monitoring unit is used for managing a scheduling command of equipment in the safety monitoring module and managing the running condition of the monitoring equipment;

the power distribution monitoring equipment is used for monitoring the power distribution equipment in the management system, acquiring and displaying various operation switching value states and electric quantity parameters of the system in real time, completely mastering the real-time operation state of the power distribution system, finding out faults in time and making corresponding decisions and treatments;

the power transformation monitoring equipment is used for monitoring the power transformation equipment in the management system, acquiring and displaying various operation switching value states and electric quantity parameters of the system in real time, completely mastering the real-time operation state of the power transformation and distribution system, finding out faults in time and making corresponding decisions and treatments;

the intelligent camera is used for acquiring image information required by the system;

the 5G communication module is used for providing a wireless communication channel for other equipment, can be hung externally or integrated, can converge a route for a plurality of equipment through a network cable, and is connected with the Internet through the 5G equipment;

as shown in fig. 2 and 3, the safety monitoring module is interactively connected with the intelligent alarm, the total dispatching monitoring unit, the power distribution monitoring equipment, the power transformation monitoring equipment and the intelligent camera through a 5G communication module, and the 5G communication module is used for converting data into 5G protocol communication data; analog signal data generated by the intelligent camera, the power transformation monitoring equipment, the power distribution monitoring equipment and the total dispatching monitoring system are subjected to AD conversion and then are packaged into an information bit ID by adding an ID, the information bit ID is coded and modulated on one hand, the information bit ID is spread by a spread spectrum codebook on the other hand, and the data packet is spread and packaged after the coding, the modulation and the spread spectrum codebook; on the other hand, the information bit ID is a pilot frequency codebook to obtain pilot frequency data; finally, the pilot frequency and the data packet are output to a 5G module together for transmission; the electrical input end of the central processing unit is interactively connected with the electrical input end of the safety monitoring module, and the electrical output end of the safety monitoring module is respectively and interactively connected with an intelligent camera, a power transformation monitoring device, a power distribution monitoring device, a total dispatching monitoring system and an intelligent alarm.

Specifically, the electrical output end of the intelligent power dispatching system is respectively and electrically connected with the power transformation dispatching equipment, the power distribution dispatching equipment, the intelligent power transmission system and the intelligent power storage equipment in a unidirectional manner; the electric output end of the intelligent power dispatching system is interactively connected with a solar power grid-connected system, and the solar power grid-connected system is used for merging power into a power grid according to the solar power generation condition, so that low-cost power output is provided for the power grid.

Specifically, the data processing module comprises;

the data storage unit is used for storing data in the system;

the data analysis unit is used for analyzing and filtering the data in the system and carrying out corresponding classification;

the data tabulation unit is used for carrying out index classification on the stored data and outputting the result in a tabular form;

the electrical output end of the data processing module is respectively and interactively connected with a data storage unit, a data analysis unit and a data tabulation unit.

Specifically, the end user module at least includes:

the display unit is used for displaying the output form of the system;

the input unit is used for inputting a corresponding information input system;

the alarm unit is used for entering an alarm response to an alarm command sent by the system;

the electrical output end of the terminal user module is electrically connected with a display module in a one-way mode, and the electrical output end of the terminal user module is respectively and interactively connected with an input module and an alarm module; wifi is arranged in the terminal user module; the display module is set as a computer display screen, a mobile phone display screen and other display equipment, and the input module is set as a keyboard, a mouse, mobile communication equipment and other display equipment.

Correspondingly, as shown in fig. 4, another aspect of the present invention further provides an internet of things-based simulation control method, which is implemented by means of the system described above, and includes the following steps:

step S1, real-time monitoring is carried out on the conditions of the power transmission network and the power station through the cooperation of the terminal mobile communication equipment, the intelligent camera, the power transformation monitoring equipment, the power distribution monitoring equipment, the total dispatching monitoring system and the intelligent alarm;

step S2, setting the ready-made system of the intelligent power dispatching system, setting by adopting the computer background of the opposite side, adopting the developed interface, and directly modifying the database of the system background to realize the real-time control of the use of the power transformation dispatching equipment, the power distribution dispatching equipment, the intelligent power storage equipment and the intelligent power transmission system through the terminal mobile communication equipment;

step S3, setting a data processing module and a terminal user module, and monitoring the safety and state conditions of the power transmission network and the power station through the terminal mobile communication equipment;

and step S4, setting safety monitoring equipment, an intelligent power dispatching system, a data processing module and a terminal user module to guarantee the safety of power transmission network and power station monitoring and power dispatching.

In a specific embodiment, in step S1, the matching between the terminal mobile communication device and the intelligent camera, the power transformation monitoring device, the power distribution monitoring device, the total scheduling monitoring system, and the intelligent alarm is specifically that, through the terminal interface, related parameter setting is performed on the developed app/control webpage/terminal software, the system reads the digital signal of the device or outputs various real-time sensor signals, has a database background, is connected with the database to directly read information, compares the read parameter value with the set alarm parameter, and notifies the user through the interface/short message/mail after the alarm parameter device starts to alarm; the parameters at least comprise working time, alarm time or numerical values; the real-time monitoring of the power transmission network and the power station is realized by acquiring field pictures in real time through a camera, regularly shooting pictures at different angles and displaying the pictures on terminal equipment; collecting parameters of the power distribution monitoring equipment and the dispatching monitoring equipment, and transmitting the parameters to a terminal; other sensors are arranged outside the system when necessary, and data acquisition is carried out on sound, temperature, entrance guard monitoring and the like.

Specifically, the safety monitoring device is provided with a signal conversion module which converts transmitted signals into digital signals.

In summary, the embodiment of the invention has the following beneficial effects:

according to the simulation control system and method based on the Internet of things, provided by the invention, the Wifi is arranged in the terminal user module, so that a user can know power grid state parameters and the like and receive various alarm information by using terminal mobile communication equipment, and the power dispatching condition can be monitored in real time; the solar power grid-connected system is controlled through the intelligent power dispatching system, and is merged into a power grid according to the solar power generation condition, so that cheap power is provided for the power grid, power resources are integrated, and the enterprise cost is reduced; through setting up computer display screen, keyboard and mouse, can realize that the user uses above equipment, knows and control power grid state parameter etc. receives various warning information, can also real-time supervision electric power scheduling condition.

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (9)

1. An Internet of things-based analog control system, comprising:

the central processing unit is used for processing calculation and data processing in the system and at least comprises a CPU, an internal memory and a hard disk;

the safety monitoring module is used for managing safety monitoring equipment;

the data processing module is used for processing, storing, outputting and displaying all data in the system;

the terminal user module is used for managing terminal equipment connected with the system;

the central processing unit is respectively and interactively connected with the safety monitoring module, the data processing module and the terminal user module, and the central processing unit is respectively and interactively connected with the intelligent electric power and electric power system and the solar energy electric power grid-connected system.

2. The system of claim 1, wherein the security monitoring module comprises:

the intelligent alarm is used for sending an alarm signal after receiving an alarm command;

the master scheduling monitoring unit is used for managing a scheduling command of equipment in the safety monitoring module and managing the running condition of the monitoring equipment;

the power distribution monitoring equipment is used for monitoring the power distribution equipment in the management system, acquiring and displaying various operation switching value states and electric quantity parameters of the system in real time, completely mastering the real-time operation state of the power distribution system, finding out faults in time and making corresponding decisions and treatments;

the power transformation monitoring equipment is used for monitoring the power transformation equipment in the management system, acquiring and displaying various operation switching value states and electric quantity parameters of the system in real time, completely mastering the real-time operation state of the power transformation and distribution system, finding out faults in time and making corresponding decisions and treatments;

the intelligent camera is used for acquiring image information required by the system;

the 5G communication module is used for providing a wireless communication channel for other equipment;

the safety monitoring module is connected with the intelligent alarm, the total dispatching monitoring unit, the power distribution monitoring equipment, the power transformation monitoring equipment and the intelligent camera in an interactive mode through the 5G communication module.

3. The system of claim 1, wherein the electrical output terminal of the intelligent power dispatching system is electrically connected to the power transformation dispatching device, the power distribution dispatching device, the intelligent power transmission system and the intelligent power storage device in a unidirectional manner.

4. The system of claim 1, wherein the data processing module comprises;

the data storage unit is used for storing data in the system;

the data analysis unit is used for analyzing and filtering the data in the system and carrying out corresponding classification;

and the data tabulation unit is used for performing index classification on the stored data and outputting the result in a tabular form.

5. The system of claim 1, wherein the end-user module comprises at least:

the display unit is used for displaying the output form of the system;

the input unit is used for inputting a corresponding information input system;

and the alarm unit is used for entering an alarm response to the alarm command sent by the system.

6. An AI monitoring method at edge extremes, implemented on the basis of the system according to claims 1-5, characterized by comprising the following steps:

step S1, real-time monitoring is carried out on the conditions of the power transmission network and the power station through the cooperation of the terminal mobile communication equipment, the intelligent camera, the power transformation monitoring equipment, the power distribution monitoring equipment, the total dispatching monitoring system and the intelligent alarm;

step S2, controlling the use of a power transformation dispatching device, a power distribution dispatching device, an intelligent power storage device and an intelligent power transmission system in real time through a terminal mobile communication device;

step S3, setting a data processing module and a terminal user module, and monitoring the safety and state conditions of the power transmission network and the power station through the terminal mobile communication equipment;

and step S4, setting safety monitoring equipment, an intelligent power dispatching system, a data processing module and a terminal user module to guarantee the safety of power transmission network and power station monitoring and power dispatching.

7. The method according to claim 6, wherein in step S1, the coordination between the terminal mobile communication device and the intelligent camera, the power transformation monitoring device, the power distribution monitoring device, the total dispatching monitoring system, and the intelligent alarm is specifically that, through a terminal interface, related parameter setting is performed on developed app/control web page/terminal software, the system reads digital signals of the device or outputs various real-time sensor signals, has a database background, is connected to the database to directly read information, compares the read parameter values with set alarm parameters, and notifies a user through an interface/short message/mail after the alarm parameter device starts to alarm; the parameters at least comprise working time, alarm time or numerical value.

8. The method according to claim 6, wherein in step S1, the real-time monitoring of the power transmission network and the power station condition is implemented by acquiring the scene pictures in real time through a camera, and taking pictures from different angles at regular time to display on the terminal equipment; and collecting parameters of the power distribution monitoring equipment and the dispatching monitoring equipment, and transmitting the parameters to the terminal.

9. The method according to any one of claims 6 to 8, wherein the safety monitoring device is provided with a signal conversion module for converting the transmitted signals into digital signals.

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