Three-dimensional visualized intelligent monitoring system for extra-high voltage transmission line

Abstract

The invention discloses a three-dimensional visualized intelligent monitoring system for an extra-high voltage transmission line. The three-dimensional visualized intelligent monitoring system comprises an extra-high voltage transmission line data collecting system, a three-dimensional simulation model, a line data analog system and a three-dimensional simulation model display system, wherein the extra-high voltage transmission line data collecting system is used for obtaining basic geographic data along the line of an extra-high voltage direct-current transmission line and line attribute data, the three-dimensional simulation model is used for building real scenes of the extra-high voltage transmission line, and the line data analog system forms extra-high voltage transmission line monitoring signals. A three-dimensional laser radar measuring technology and a three-dimensional reverse modeling technology are adopted, a three-dimensional visualized intelligent monitoring platform is established, and three-dimensional monitoring of a direct-current extra-high voltage transmission line corridor is achieved. Automatic detection analysis and early warning of dangerous points are achieved. Cross section analysis of the line, ground feature and earth surfaces is achieved, a powerful analysis tool can be provided for overhauling, rebuilding and expanding and the like of the extra-high voltage transmission line, massive devices and channel resources are saved, share of information resources is achieved, and application of information resources is facilitated.

Description

technical field [0001] The invention relates to the field of high-voltage transmission lines, in particular to a three-dimensional visualized intelligent monitoring system for ultra-high voltage transmission lines. Background technique [0002] At present, the existing 500kV power grid is often constructed with a Japanese-shaped double-ring network. As an artificial structure of UHV power lines located in three-dimensional geographical space, the line distance is generally very long, and the geographical environment of the passing area is relatively complicated. , how to safely and effectively monitor and manage UHV transmission lines to ensure the safe operation of the power grid is very important. [0003] Traditional monitoring methods cannot accurately monitor UHV transmission line data (iron towers, wire sags, insulator strings, jumpers, etc.), nor can they link transmission line equipment and environmental conditions such as line corridor topography and landforms for c...

AI Technical Summary

Problems solved by technology

[0003] Traditional monitoring methods cannot accurately monitor UHV transmission line data (iron towers, wire sags, insulator strings, jumpers, etc.), nor can they link transmission line equipment and environmental conditions such as line corridor topography and landforms for comprehensive analysis. Therefore, Unable to meet the monitoring management and operation and maintenance requirements of UHV transmission lines

It cannot meet the operation and maintenance needs of building a smart grid and achieve the overall goal of lean management of transmission lines

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