RU209479U1 - Anode ground electrode extended - Google Patents

Abstract

(57) The utility model relates to the field of protection of metals from corrosion, namely: to the structures of extended type anode ground electrodes. The ground electrode includes a current-carrying cable, an anode, an electrically conductive backfill located around the current-carrying cable and an anode, as well as a chemically resistant sheath in which said current-carrying cable, an anode and an electrically conductive backfill are placed, while the chemically resistant sheath is a suture fabric, including polyamide and bicarbolone fibers. EFFECT: increased strength and ductility of an extended anode earth electrode, while maintaining a stable electrical connection between the anode and the soil.

Description

Technical field

The utility model relates to the fields of electrochemistry and electrical engineering, namely, to the structures of extended type anode ground electrodes used to protect against underground corrosion of long and closed metal structures and structures, such as oil, water, gas pipelines, tanks and containers.

State of the art

In general, extended type anode grounding devices consist of a conductive cable, an electrically conductive backfill of a chemically resistant textile sheath.

From the prior art, various designs of extended type anode ground electrodes are known, fundamentally differing in the type of metal alloys and element materials used, as well as their various combinations.

The disadvantages of all known anode ground electrodes are a limited service life and low resistance to abrasion and mechanical damage. The mentioned characteristics of the anode earth electrode are determined by the properties of the shell, which perceives the influence of the external environment. To prevent mechanical destruction of the shell, it is additionally reinforced with a protective shell, for example, a grid of dielectric filaments, or a polymeric perforated pipe or a sheath of instant metal.

An anode ground electrode is known (utility model patent RU 47007 U1) containing a central core made of twisted aramid yarns, a conductor made of copper wires twisted into a core with a total cross section of 10-90 mm ² and a sheath made of vulcanized rubber based on carbon chain rubber, including carbon black with a specific surface area of 140-150 m ² /g in the amount of 100-300 wt.h. per 100 wt.h. rubber.

The disadvantages of the anode ground electrode according to patent RU 47007 U1 is the surface roughness and violation of the eccentricity in the manufacturing process (vulcanization) of the anode electrode, and high traction forces lead to breakage of the wires of the current-carrying cable.

Known anode ground electrode (utility model patent RU 48995 U1), consisting of a conductor and a conductive polymer sheath, characterized in that the conductive sheath is made of plastic containing a conductive filler.

The disadvantages of the anode ground electrode according to patent RU 48995 U1 is a limited service life and low resistance to abrasion and mechanical damage.

An extended anode ground electrode is known (utility model patent RU 134172 U1), including a current-carrying cable and an anode electrically connected to it with a soluble working material, in which the anode electrode is provided with a reinforcing sheath consisting of dielectric cross-weave threads and an instant metal sheath located over a permeable material. chemically resistant shell with the ability to perceive longitudinal loads.

However, the description of the utility model according to patent RU 134172 U1 does not disclose the features of the design and material of the chemically resistant shell, which provide the claimed technical result.

Aims and objectives of the utility model

The purpose of the utility model is to expand the arsenal of extended type anode ground electrode structures.

The objectives and technical result achieved by this utility model are:

- creation of a wear-resistant, mechanically strong extended anode earthing switch with increased operational reliability;

- increasing the manufacturability of the extended anode earth electrode, due to the convenience of forming a chemically resistant shell (sleeve) of the anode earth electrode, its stuffing with electrically conductive filling and centering the current-carrying cable, provided by the utility model.

To solve the tasks and achieve the claimed technical result, a suture fabric is used as a chemically resistant shell of an anode ground electrode, which includes fibers of polyamide and bicarbolone.

Disclosure of the essence of the utility model

The extended anode grounding switch includes a current-carrying cable, an anode located parallel to the current-carrying cable or spirally around it, an electrically conductive backfill located around the current-carrying cable and an anode, as well as a chemically resistant sheath in which said current-carrying cable, anode and electrically conductive backfill are placed.

In this case, as a water-permeable chemically resistant shell, a suture fabric is used, including fibers of polyamide and bicarbolone.

Implementation of the utility model

According to one embodiment of the utility model:

The current-carrying cable contains a current conductor made of copper and a conductive polymer sheath made of carbon fibers and polymer binders.

As an electrically conductive backfill, coke or a coke-mineral activator is used.

The shell of the extended anode earth electrode is formed as follows: the fabric is fed through the feeder to the sleeve formation unit, in which the conductive backfill supply pipe is located, due to the guides, the fabric wraps around the pipe and passes through the sewing mechanism with edges, as a result of which a sleeve is formed into which the conductive backfill is placed .

The extended anode ground electrode works as follows:

The construction of deep anode grounding on the basis of an extended anode grounding device provides for the installation of the product in the well to the depth of the soil layers with minimal electrical resistance. Several earthing switches can be installed in one well using special grippers. It is recommended to fill the anode space of the ground electrode with a coke-mineral activator.

The construction of surface anode grounding based on an extended anode grounding device provides for the installation of one or more products in a trench below the freezing depth of the soil. It is also recommended to fill the near-anode space of the ground electrode with a coke-mineral activator. After that, the grounding conductors are connected to the cathodic protection station.

Claims (1)

Extended anode earthing switch, including a current-carrying cable, an anode, an electrically conductive backfill located around the current-carrying cable and an anode, as well as a chemically resistant sheath in which the said current-carrying cable, an anode and an electrically conductive backfill are placed, characterized in that the chemically resistant sheath is a suture fabric, including polyamide and bicarbonate fibers.