SU811180A1 - Electrode for sea electric survey - Google Patents

Description

The invention relates to geophysical survey methods, in particular, to devices for marine electrical exploration.

The known electrodes are a metal rod driven into the ground, or a wired conductor of a conductive cable immersed in an aqueous medium. The so-called “non-polarizable lead electrodes or more complex electrodes are formed according to the principle“ metal-salt solution of this metal — semipermeable sheath 1.

Lack of buoyancy makes it difficult to use them in marine conditions.

Also known is an electrode for marine electrical prospecting, made in the form of a hollow bulk conductor electrically connected to a residential cable. This electrode has positive buoyancy.

In the operation of an electrode, electrolytic destruction of its outer surface occurs. The rate of destruction is determined by the rate of electrolytic destruction of the material of the electrode (metal), increases when the electrode is heated, and is proportional to the strength of the transmitted current.

The disadvantage of this electrode is that heat removal is dried, only

from the outer surface, which increases the electrolytic destruction and reduces the service life of the electrode. The relatively rapid destruction of the outer surface of the electrode leads to a breakdown in sealing and the loss of the main advantage, positive buoyancy.

The aim of the invention is to increase the service life of electrodes for marine

electrical prospecting, especially when working with large currents.

This goal is achieved by the fact that the electrode, made in the form of a hollow bulk conductor connected to

With an electric input, the outside of the wire is covered with a continuous layer, the wire is plastic, tightly attached to it, to the surface of the conductor, the outer layer has electrical contact with it.

In addition, the volumetric conductor can be made flowing, which provides additional heat removal from the electrode and thereby increases its service life. The electrical input is located inside the conductor and is removed from its ends for a distance of at least two diameters of the internal cavity.

In the drawing: e shows a general view of the electrode.

The electrode consists of a hollow metal cylinder 1, on the inner surface of which a thread is cut. An electrical inlet, made in the form of a conical cup 2, into the base of which 3 electrical cables is inserted, is screwed in along this thread. The end of the cable insulation is located in the inner cavity of the cylinder and at least two diameters from the inner cavity of the cylinder is removed from its front end. To prevent the cup from loosening, a lock nut 4 is provided. The outer surface of the metal cylinder is covered with a continuous layer 5 of conductive plastic, for example ATM-1 graphite plastic. The internal cavity of the electrode is flow through due to the fact that there are through holes in the cup.

The electrode works in the following way.

Electrode assembly is towed in water for power, cable. Electrical contact of the core 3 with the electrode is provided through soldering to the cup 2, the cup itself, the thread between the cup and the metal cylinder 1, and the contact of the cylinder 1 with layer 5 is made of plastic. Due to electrostatic repulsion, the current tends to the abnormal surface of the electrode and flows only from the surface of layer 5, which is much more resistant to electrical destruction than the metal. The current density from the inner metal surface of the electrode is negligible. Due to this, the electrolytic destruction of the electrode is minimized. Water wraps around the electrode outside

I

and flows through the internal cavity, providing an additional heat sink. This creates a favorable temperature for the layer of wire and plastic, as this reduces the rate of electrolytic destruction of it. The life of the electrode is determined mainly by the mass of the conductive plastic.

Claims (2)

1. Electrode for marine electrical prospecting, made in the form of a hollow bulk conductor connected to an electrical input, characterized in that, in order to increase service life, the outer surface of the conductor is covered with a continuous layer of conductive plastic, hermetically adjacent to the conductor surface, and has with it electrical contact. 2. Electrode according to claim 1, characterized in that the bulk conductor is flow-through, and the electrical input is located inside the conductor cavity and removed from its ends by a distance of at least two diameters of the inner conductor cavity. Sources of information taken into account in the examination 1. Yakubovskiy Yu. V., L. Hov L. L. Electrointelligence. M., “Pedra, 1974, p. 73, 217. 2.Strizhenok G.S. Designs of supply and measuring electrodes for marine electrical prospecting. Sat Geophysical Instrument, 1978, no. 63, p. 45-47 (prototype). ..,five Zid