PL160613B1 - Electode for generating a current able to minimize electrc field of a ship provided with an anodic protection system - Google Patents

Abstract

1. An electrode for the regeneration of current minimizing the electric field of a sea vessel equipped with a cathodic protection system, composed of a body with an active component characterised in that a ring-like element (5) insulated from the active component (4) and the body (3) in the shape of a disk with a pass (9) is mounted coaxially on the active component (4).<IMAGE>

Description

The subject of the invention is an electrode for generating a current that minimizes the electric field of a ship equipped with a cathodic protection system supplied from an external power source.

To generate a current that minimizes the ship's electric field, electrodes are used, which are placed in selected places of the hull plating. The cathodic protection system anodes are located elsewhere in the hull plating. The zinc electrode known from the Polish patent specification No. 113844 consists of a two-chamber body welded to the hull plating. In one of the chambers there is a cylindrical element insulated from the body. In the second of the chambers, covered with a cover, there is the end of the contact rod, to which is screwed the cable end of the cable passing through the cable gland fixed to the body. This electrode has a complicated structure.

In the electrode according to the invention, an annular element insulated with respect to the active element and a disc-shaped body with a passage is arranged coaxially to the active element. The width of the insulator between the active element and the annular element does not exceed the diameter of the active element. The coaxial position of the elements allowed for the simultaneous sending of current from two devices from the same place. This influences a more effective representation of the cathodic protection electric field through the minimizing circuit. The reduced number of elements reduces the hull resistance.

The electrode according to the invention is simple to build and easy to install. Provides more economical use of energy to power the field minimization device. This design reduces the number of weak points in the fuselage caused by openings for conduits.

The subject of the invention is shown in the embodiment in the drawing, in which Fig. 1 shows a schematic diagram of the connections of the systems for minimizing the ship's electric field and cathodic protection, Fig. 2 - the electrode for generating a current in a semi-section.

The electrode consists of a body 3 in which a coaxial active element 4 and an annular element 5 are mounted. Elements 4 and 5 are insulated from each other and from the body 3 by an insulator 6. The wires 7 and 8 of elements 4 and 5 are led through the passage 9, in which is provided with a disc-shaped body 3. The culvert 9 is attached to the ship's hull 10. The width of the insulator 6 between the active element 4 and the annular element 5 is not greater than the diameter of the active element 4.

The minimizing current is generated from the device 1 for minimizing the electric field to water in the areas of the field maximum from the cathodic protection current forced from the cathodic protection station 2. Active element 4 and annular element 5 can be used interchangeably for the field minimization device 1 of the cathodic protection station 2.

Fig.1

Department of Publishing of the UP RP. Circulation of 90 copies

Price: PLN 10,000

Claims (2)

Patent claims 1. An electrode for generating a current that minimizes the electric field of a ship equipped with a cathodic protection system consisting of a body with an active element, characterized in that an annular element (5) is placed coaxially to the active element (4), insulated against the active element (4) and the body (3) disc-shaped with an opening (9). 2. The electrode according to claim The method of claim 1, characterized in that the width of the insulator (6) between the active element (4) and the annular element (5) is not greater than the diameter of the active element (4).