電力應急搶修——國內領導先的ERS電力應急搶修系統

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With the rapid development of the economy and society, the scale of the power grid is expanding day by day. At the same time, extreme weather and natural disasters occur frequently, posing a great threat to the safe and stable operation of the power grid. At this time, power grid construction enterprises play the role of the main force in emergency rescue. Once damage or failure occurs at the rescue site, if it is not repaired in a timely manner, it will inevitably affect emergency rescue actions and reduce rescue efficiency. Emergency repair refers to the use of emergency diagnosis and repair techniques at the rescue site to quickly repair equipment malfunctions or damages. Studying the characteristics of emergency repair, strengthening the construction of emergency repair forces, and mastering convenient emergency repair methods are of great significance for enhancing equipment support capabilities.

The patented technology of China International Power Group Corporation's Emergency Restoration System (ERS) for power lines has outstanding advantages of "professionalism and speed". When sudden major accidents occur in power facilities, large-scale damage to power facilities, serious natural disasters, and continuous power crises occur, China International Power Group will immediately dispatch emergency repair construction teams according to the actual situation. ERS has become the vanguard of power grid repair.

FEATURES

(1) No need to remake the tower foundation, suitable for any non extreme geological conditions;

(2) Professional anchors can be quickly used in any complex terrain and geological construction;

(3) The design software can quickly generate repair construction drawings based on the on-site situation, and can be combined into multiple tower types. It can be quickly repaired anytime and anywhere in non extreme terrain conditions;

(4) The tower materials and tools are lightweight, easy to handle manually or urgently transport by helicopter. The tower can be combined into a crossing structure for use, including an electrified crossing structure;

(5) Modular and standardized design of tower materials, which can be quickly assembled and disassembled;

(6) The material standards and dimensions are unified, and each system can be used interchangeably;

(7) Special tools and fittings are available to ensure rapid construction;

(8) Planning temporary lines to bypass the original line and quickly restore power supply, a system can quickly assemble ten towers;

(9) Complete mutual assistance between regions to reduce the maintenance cost of the power grid;

(10) Configure a remote monitoring system to ensure that the emergency command center can remotely monitor the progress on site;

(11) Equipped with a logistics support system to ensure the clothing, food, shelter, and transportation of emergency repair personnel;

(12) Equipped with emergency lighting system to ensure 36 hours of on-site construction lighting;

(13) Accessories can be combined into construction poles and other tools for use;

(14) Equipping with anti fall devices can effectively ensure the safety of construction personnel;

(15) Equipped with self-propelled tensioning, lifting, and transportation equipment to ensure fast response time.