KR20000002864A - Remote supervision and control method of multiple solar photovoltaic power generation system - Google Patents

Abstract

PURPOSE: A remote supervision and control method of a multiple solar photovoltaic power generation system are provided to allow a central main computer to supervise and control solar photovoltaic power generation systems in each region. CONSTITUTION: A plurality of solar photovoltaic power generation systems are connected by all-purpose communication lines to organize a network. A driving state of each generation system is supervised by a central control system of a remote region therefrom. A variety of data are collected and treated from each of the generation systems to display the data in a display device of the central control computer system. Thereby, a judgment ground for optimally controlling a solar photovoltaic power generation system is secured to perform remote control of the system depending upon it.

Description

Remote PV Monitoring and Control System Method

The present invention relates to a method for remote monitoring and control system of a multi-photovoltaic power generation system. The operation status of the photovoltaic system is monitored in real time by the central control headquarters located geographically separated from the photovoltaic system, and the operation data of each photovoltaic system is collected and processed to be displayed on the display of the central control system. The present invention relates to a method of remotely controlling a photovoltaic power generation system based on securing a basis for judgment for optimal control of a photovoltaic power generation system.

An object of the present invention is to provide a convenience by connecting the photovoltaic power generation system distributed in each place with the central control system installed in the center to operate the photovoltaic power generation systems of each place from the central main computer. Is there.

In order to achieve the object of the present invention, the local terminal system having a function of monitoring and controlling each system installed in the photovoltaic power generation system by receiving instructions from the central control system and the central control system installed in the central control headquarters. And install and distribute multiple photovoltaic power generation system operating systems (program registration number; 97-01-21-0829), which are operating programs, to the central control system and local computer systems. It's in the box.

1 is a relationship between the central control system and the local terminal system in the present invention "multi-photovoltaic system remote monitoring and control system"

2 is a configuration diagram of a local terminal system

3 is a configuration diagram of the initial screen of the "multi-photovoltaic system operating system" operating program of the "multi-photovoltaic system remote monitoring and control system" of the present invention.

Figure 4 is a view of the operating program "multi-photovoltaic system remote monitoring and control system" operation state diagram of the photovoltaic system

5 is an exemplary view showing processing of the photovoltaic system operation data in the operating program "multiple photovoltaic system remote monitoring and control system"

Referring to the configuration and operation of the present invention in detail based on the accompanying drawings as follows.

Installing a local terminal system having a function of monitoring and controlling each system by receiving a command from the central control system and the central control system installed in the central control headquarters, and performing the monitoring and control of each system; It consists of distributing and installing the multiple photovoltaic system operating system (program registration number; 97-01-21-0829), which is an operating program, in the control system and the local computer system.

The operation of the present invention is as follows.

The central control system has a function to identify and control the operation status of each photovoltaic power generation system in the network through a communication line, and is composed of a computer system and a communication device. The local terminal system consists of sensors attached to various devices installed in each photovoltaic power generation system, data collection terminals, communication devices, and dedicated computer systems, and transmits the collected data to the central control system and from the central control system. It has the function to directly control the photovoltaic system under the command and has its own monitoring function.

The network operation program "Multi PV System Operating System" is a central control system operation program embedded in a dedicated computer of the central control system and a local terminal system embedded in a local dedicated computer system in which the solar power system is installed. It consists of a program. The central control system operation program has a function of monitoring a plurality of photovoltaic power generation systems, analyzing the data transmitted from the local terminal system and outputting the result, and a local terminal system control function. It has the ability to collect local operating data and transmit it to the central control system, to control the photovoltaic system under the command of the central control system, and to monitor and alarm itself.

Figure 1 is a graphical representation of the system of the present invention multiple photovoltaic system remote monitoring and control system.

The central control system has the function of grasping the operation status of each photovoltaic power generation system in real time from local terminal systems installed in various places through general-purpose communication lines, analyzing the operation data, and processing and outputting it in an appropriate form. In addition, based on the operation status identified in real time, the appropriate control command is divided into necessary and unnecessary by the administrator's judgment, and when the administrator's judgment is unnecessary, the control command is automatically transmitted to the local terminal system and the solar power generation system Remote control is executed. Whether the control is automatically performed can be arbitrarily changed by the administrator, and control commands requiring the administrator's judgment are transmitted to the local terminal system through the manual operation of the administrator to perform remote control of the photovoltaic power generation system.

The local terminal system has the configuration as shown in FIG. 2, and the various types of operation data collected through a measurement and monitoring network made of sensors or measuring devices built in or attached to various facilities constituting the photovoltaic power generation system are formed in an appropriate form. It is then processed and sent to the central control system, and output in an appropriate form through its own dedicated computer system, providing the basis for the local situation's primary judgment.

An operating program, a multi-photovoltaic power generation system operating system, is a program for Windows and has a pull-down menu configuration as shown in FIG. 3 and can be used only by a mouse without using a keyboard. In the central control system, it is possible to grasp the operating status of the local terminal system through the general-purpose communication line, to give a control command arbitrarily or to operate an operation program embedded in the local terminal system. However, the local terminal system can call and communicate with the central control system, but no operation can be applied to the central control system.

4 is a view showing the operation of the entire photovoltaic system as one of the viewing screen.

FIG. 5 illustrates processing of operation data transmitted from a local terminal system and returns to a previous screen or enters a next screen through a current screen, and a screen configuration variable may be directly input through a keyboard. The exchange of information between the central control system and the local terminal system is bidirectional, but the operation of control commands or operating programs is only possible from the central control system.

Therefore, the present invention is an invention that can provide convenience by connecting the geographically separated photovoltaic power generation system to remote monitoring from the main computer at any time to properly operate and stop as necessary.

Claims (3)

Multiple photovoltaic power generation systems that are geographically separated from one another by using a data collection device using a computer, an operating system that is a program for general communication lines and windows, and a multi-photovoltaic power generation system operating system. A method of remotely monitoring and controlling a system in real time. The method of claim 1; A method of remote monitoring and control of a photovoltaic system, characterized by using a multiple photovoltaic system operating system as a network operating system consisting of a plurality of photovoltaic systems located geographically separated from each other. The method of claim 1; Remote and control system method of photovoltaic system using general communication line and data collection device and constructing network of photovoltaic system using program multi-photovoltaic system operating system for windows.