RU210887U1 - Anode grounding switch complete - Google Patents

Abstract

The utility model can be used in electrochemical protection systems for main pipelines and other underground metal structures against corrosion. EFFECT: simplification and improvement of manufacturability of the design of an anode ground electrode system of a complete type, as well as a uniform flow of current along the length of the electrode during operation. The technical result is ensured by the use in the design of the anode grounding switch of a complete type of a bimetallic part that combines the functions of a current lead and an electrode, in which the electrode is made in the form of a pipe made of high-silicon cast iron, and the current lead is made of low-carbon steel, the melting temperature of which is higher than the melting temperature of high-silicon cast iron, thus ensuring electrical contact along the entire length of the inner surface of the electrode.

Description

The utility model relates to the field of electrochemical protection of underground metal structures against corrosion and can be used as sparingly soluble anode devices (anode ground electrodes) in electrochemical protection systems for main pipelines and other underground metal structures against corrosion.

Known anode ground electrode according to patent RU 85486 U1 (C23F13/00, 08/10/2010), containing a hollow cast metal case made of ductile iron as an electrode and a lead cable with a lug fixed inside the body by means of a mechanical mount, insulated with the lug of the lead cable from external environment, a through hole is made in the wall of the housing, and the attachment unit is installed in this through hole, and the lug of the supply cable is fixed directly on the inner surface of the housing.

The disadvantages of the anode earth electrode according to patent RU 85486 U1 are the complexity and low reliability of the design due to the proposed mechanical unit with the supply cable fixed to it by means of a lug, in particular, these disadvantages can be found when constructing an anode earth electrode of considerable length - with an increase in the number of cable connections.

An anode ground electrode is known according to patent SU No. 1516510 A1 (C 23 F 13/00, 10/23/1989), containing a ferrosilicide cylindrical electrode and a current lead located in its body, made in the form of a steel rod with a head and an axial hole, while inside the current lead hole, tinned, then installed and poured with liquid tin.

The disadvantage of the anode grounding according to the patent SU No. 1516510 A1 is that the location of the current lead in the upper part of the ferrosilicide electrode does not provide a uniform current distribution along the length of the electrode due to the significant electrical resistance of the material from which the electrode is made. This leads to uneven operation of the electrode along the length and, consequently, to uneven cathodic protection of the product.

An anode ground electrode is known according to patent RU 132079 U1 (C23F13/06, 09/10/2013), selected as the closest analogue, including a current lead wire and at least one metal electrode connected to it, made in the form of a hollow through or deaf pipe, characterized in that that the contact of the current lead wire with the electrode is made in the form of at least one compression spring.

The disadvantage of the anode ground electrode according to patent RU 132079 U1 is that the contact of the current lead with the electrode is provided only along the line of contact of the outer surface of the spring with the inner surface of the electrode, and not evenly over the entire inner surface, which leads to uneven operation of the electrode and uneven cathodic protection of the product due to for uneven electric field.

The tasks to be solved and the technical result of the utility model provided are to simplify and improve the manufacturability of the design of the anode ground electrode system, as well as to ensure a uniform flow of current along the length of the electrode during operation.

The claimed technical result is ensured by the use in the design of a bimetallic part that combines the functions of a current lead and an electrode, in which the electrode is made in the form of a pipe made of high-silicon cast iron, and the current lead is made of low-carbon steel, the melting temperature of which is higher than the melting temperature of high-silicon cast iron, thus providing electrical contact along the entire length of the inner surface of the electrode.

The implementation of the current lead and the electrode in the form of a bimetallic part is an essential feature, because one of the metals - low-carbon steel - has a low electrical resistance, and the second metal - an alloy of iron with silicon - has a high corrosion resistance, while a reliable electrical contact between the metals is made along the entire length of the outer surface of the current lead and the inner surface of the electrode, due to which a uniform leakage current during operation.

The performance of the electrode from high-silicon cast iron, and the current lead from low-carbon steel, the melting point of which is higher than the melting point of high-silicon cast iron, is an essential feature, because in this case, the anode earth electrode can be made by surfacing high-silicon cast iron onto the surface of low-carbon steel.

The anode grounding switch of the complete type, in accordance with the utility model, includes a current lead and a metal electrode connected to it, made in the form of a hollow through or blind pipe, in which the current lead is located. In this case, the electrode and the current lead are a bimetallic part, in which the electrode is made of high-silicon cast iron, and the current lead is made of low-carbon steel, the melting temperature of which is higher than the melting temperature of high-silicon cast iron.

Thus, the contact of the current lead with the electrode is provided as a result of surfacing or soldering of low-carbon steel over the entire inner surface of the metal electrode.

In order to prevent loss of electrical contact in the junction points of the elements of the anode ground electrode system of the complete type, the ends of the electrode and the outer surface of the current lead that is not in contact with the electrode are sealed with heat-shrinkable materials.

In a particular case of the implementation of the utility model, an anode earthing switch of a complete type for assembling the required length, as well as for connecting an electric cable from a cathodic protection station, the current lead is made in the form of a pipe, while one end of the current lead contains an external thread, and the other end contains an internal thread.

In another embodiment of the utility model, the current lead is made in the form of a pipe, while both ends of the current lead have an external thread, and the elements of the anode earthing switch of the complete type are connected to each other by means of couplings with an internal thread.

During storage and transportation, the threads are protected from damage by protective caps. After assembling the structure, the joints are additionally sealed with heat-shrinkable materials.

Claims (3)

1. Complete anode grounding switch, including a current lead and a metal electrode connected to it, made in the form of a pipe in which the current lead is located, characterized in that the electrode and the current lead are a bimetallic part, in which the electrode is made of high-silicon cast iron, and the current lead is made of low-carbon steel , the melting point of which is higher than the melting point of high-silicon cast iron. 2. Anode grounding device complete according to claim 1, characterized in that the ends of the electrode are additionally sealed with heat-shrinkable materials. 3. Anode grounding switch complete according to claim 1, characterized in that the current lead is made in the form of a pipe, at the ends of which a thread is cut.