Lightning-caused breakage preventing method for insulated overhead line

Abstract

The present invention discloses a lightning-caused breakage preventing method for an insulated overhead line, comprising the steps of: stripping and cutting an insulated conductor at the position of an insulator to obtain a section of bare section; parallelly and fixedly arranging a bare conductor of which the length is greater than the length of the bare section to the insulated conductor at the position of the insulator, wherein one end of the bare conductor is bound and fixedly connected with the bare section; and performing sealing for the connecting position between the bare conductor and the bare section. According to the lightning-caused breakage preventing method, one section of the bare conductor is installed on the insulated conductor, one end of the bare conductor is bound and fixedly connected with a metal wire in the insulated conductor, then sealing is performed, when a direct lightning or lightning induced voltage acts on the bare conductor to cause an insulator arc-over, continuous power-frequency short-circuit current arcs move along the axial direction of the bare conductor under the effect of electrodynamic force, thereby greatly reducing the probability of severe burn of the insulated conductor, and greatly reducing the cost, in addition, a simple structure and convenient operation are achieved, and operating efficiency is improved.

Description

technical field

[0001] The invention relates to a power distribution overhead line in a power system, in particular to a method for preventing lightning strike and disconnection of an overhead insulated line. Background technique

[0002] In 10kV insulated overhead lines, lightning strikes on insulated wires often cause disconnection. The reason is that the lightning overvoltage first breaks down the insulation of the wires and then causes the insulator to flash over. The short-circuit current arc is hindered by the surrounding insulating layer, and the arc root can only burn at the pinhole, and the wire will be burned in a very short time; and in the prior art, there are three general methods to solve the above problems: The first is to prevent phase-to-phase insulation flashover during lightning strikes, which is achieved by improving the insulation level of the line, installing lightning arresters, installing overhead ground wires, installing shielding wires, etc.; the se...

Images