Wire-drawing power generation anti-icer for high-voltage wire

Abstract

The invention belongs to the technical field of high-voltage operations and in particular to a wire-drawing power generation anti-icer for a high-voltage wire. The wire-drawing power generation anti-icer for the high-voltage wire comprises a first walk executing mechanism, a first connecting mechanism, an energy collecting mechanism, a second connecting mechanism, a second walk executing mechanism and a charging battery, wherein the first walk executing mechanism and the second walk executing mechanism can move actively on the high voltage wire; the two walk executing mechanisms are connected to the energy collecting mechanism through the connecting mechanisms. The energy collecting mechanism can collect fan pendulum energy of the high voltage wire and then converts the fan pendulum energy into the electric quantity in the charging battery. The equipment designed by the invention is suitable for operations on fixed high voltage wires among electric poles. The designed walk executing mechanism and the energy collecting mechanism are of modular designs and can be freely combined according to the quantity of the high voltage wires, so that the anti-icer is quite convenient; in addition, the anti-icer also plays a spacing role on the high voltage wires and has relatively high practicality.

Description

Technical field [0001] The invention belongs to the technical field of high-voltage electric work, and in particular relates to a wire drawing power generation anti-icing device for high-voltage electric wires. Background technique [0002] At present, the freezing of high-voltage wires has become one of the biggest damage factors to high-voltage wires in winter. Deicing operations are often performed in the following manner. First, by adjusting the current and voltage in the high-voltage wires to make the high-voltage wires generate a higher temperature, and then melt the ice on the wires, which often causes a lot of energy waste; second, relying on manual removal of ice is dangerous. In addition, the accumulation of dangerous operation in extreme environments increases; third, using robots to deice, robots working on high-voltage wires are currently heavy and bulky, requiring manual replacement Batteries cannot generate electricity by themselves. Even if they can rely on...

AI Technical Summary

Problems solved by technology

First, by adjusting the current and voltage in the high-voltage wires to make the high-voltage wires generate a higher temperature, and then melt the ice on the wires, which often causes a lot of energy waste; second, relying on manual removal of ice is dangerous. In addition, the accumulation of dangerous operation in extreme environments increases; third, using robots to deice, robots working on high-voltage wires are currently heavy and bulky, requiring manual replacement Batteries cannot generate electricity by themselves. Even if they can rely on solar energy to generate electricity, the electricity generated cannot meet the requirements of robots with large weight and volume. This factor also causes the current low popularity of high-voltage wire work robots.

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