RU195815U1 - Power line anti-icing device - Google Patents

Abstract

The utility model relates to electrical engineering, in particular to devices that prevent the formation of ice on the contact wire of a power line without disconnecting consumers. A device for combating ice on a power line, which includes an external current source with respect to the power line, is designed to provide power calculated by the formula P = q⋅A⋅ΔT, where q is the heat transfer coefficient of the upper hot layer of the air wire, A is the surface area of the wires, ΔT is the heating temperature of the wire relative to the temperature o medium, characterized in that in the device the power line is made of a contact wire and a heater, which in turn is made in the form of a heat-conducting electrically insulating flexible tube, and a heating wire is placed in it in a dielectric heat-conducting medium, and a circular groove with a diameter is made along the contact wire, no less than a heater, and in it it is pressed into 2/3 of its diameter and pressed. The proposed device for combating ice on a power line will reduce energy costs and heating the contact wire by more than 50% without stopping the movement of trains, and will also prevent the burnout of the latter and increase its working life by 3 times by reducing the heating power and isolating the heating wire from the contact.

Description

The utility model relates to electrical engineering, in particular to devices that prevent the formation of ice on the contact wire of a power line without disconnecting consumers.

Known devices for melting ice on the contact wires of electrified railways due to the thermal action of electric current (A.A. Porcelan, I.V. Pavlov, A.A. Neganov. Fighting ice on electrified railways. M .: Transport, 1970 ., 50-68)

These devices require a large expenditure of energy and lead to an increased decrease in the resource of the contact wire.

A device for controlling icing on a power line, including an external current source with respect to the power line, configured to connect to current-carrying wires of the power line, characterized in that the external current source is made in the form of a high frequency generator, configured to provide power calculated according to the formula P _T = q⋅A⋅ΔT, wherein the heat transfer coefficient q of the upper hot layer of air wires A - surface area of the wires, ΔT - temperature of heating wires relative to ambient temperature ; wherein the generator output is connected to the input of a capacitive-type matching device configured to match the output resistance of the high-frequency generator with the input resistance of the power transmission line and having the number of outputs corresponding to the number of power transmission wires. (RF patent No. 2356148, H02G 7/16 (2006.01), published on 05/20/2009 Bull. No. 14, "Device for melting ice on wires and cables of overhead lines", authors V. Kaganov and others).

This technical solution was made by the authors as a prototype.

The technical result is a reduction in energy consumption by more than 50%, when heating the contact wire without stopping the movement of trains and increasing its working life.

The technical result is achieved by the fact that in the anti-icing device on the power line, which is a heater with the possibility of placement along the contact wire, characterized in that the heater is made of an electrically insulating flexible tube that is filled with transformer oil, and a heating wire is placed inside it, with the possibility of connect it to an external power source.

The introduction of a heater into the anti-icing device on the power transmission line in the form of an electrically insulating flexible tube filled with transformer oil, and a heating wire is placed inside it, with the possibility of being placed along the contact wire and connected to an external power source, it can reduce energy consumption by more than 50%.

In FIG. shows a device to combat icing on a power line.

The device comprises a heater, consisting of: a thermally conductive insulating flexible tube 1, transformer oil 2, a heating wire 3, a terminal for connecting to an external power source 4.

The device operates as follows.

Heating current 3 flows through the heating wire from an external power source connected via terminal 4, heat from the heating wire 3 is transferred to transformer oil 2, which, when heated, transfers heat through a heat-conducting electrically insulating flexible tube 1, under the influence of heat of which ice formations melt.

For a more reliable pressing of the heater consisting of: a heat-conducting electrically insulating flexible tube 3, a dielectric heat-conducting medium, for example transformer oil 4, a heating wire 5 located in a circular groove 2 to the contact wire 1, a compression spring 6 is used, which is integrated in the clamp for the wire of the contact network 7.

The proposed device for combating ice on the power line will reduce energy consumption for heating the contact wire by more than 50% without stopping the movement of trains, as well as prevent burnout of the latter and increase its working life by reducing the heating power of the contact wire.

Claims (1)

An anti-icing device on a power line, which is a heater that can be placed along the contact wire, characterized in that the heater is made of an electrically insulating flexible tube that is filled with transformer oil, and a heating wire is placed inside it, with the ability to connect it to an external power source.

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