ITRM970176U1 - REFINEMENTS IN THE CATHODIC PROTECTION SYSTEMS OF THE ANODIC DEVICES - Google Patents

Description

Improvements in cathodic protection systems for anode dispersers.

The phenomenon of corrosion of underground metal structures (such as telephone cables, electrical cables and gas-carrying pipelines, oils, water, etc.) is known, due to electrochemical causes that occur depending on the uptake of continuous currents that run through the subsoil. they leave the ducts to return to the ground, the duct works as an anode of an electrolytic cell and corrosion of the metal occurs.

The electrolytic dissociation of acid salts or acids in the moist soil causes substances to be brought to the anode in the nascent state due to the abandonment of the charge of the anions, which are usually acid radicals, which strongly attack lead. metals generally entering with them in chemical combination.

It is therefore necessary to minimize the action of these currents on the ducts in order to reduce the considerable damage they produce.

To prevent this type of corrosion it is therefore necessary to pass a correrite, adjustable by an appropriate anode, towards the metal area to be protected, until it is cathodic and therefore immune to corrosion. There are two main methods! for this type of so-called cathodic protection: the impressed current cathodic protection which is based on the use of a direct current generator (cathodic power supply), whose negative pole is connected to the metal area to be protected, while the positive pole is connected to a formed earth electrode gives corrosion-resistant material.

The other system consists of the cathodic protection with sacrificial anodes which is used in particular in soils, with low resistivity and consists in electrically connecting an anodic material (based on zinc, magnesium or aluminum) to the metal area to be protected, thus forming an element galvanic; based on the choice of the anode and its dimensions, a current flow is determined which reaches the area subject to corrosion. anodic which, although performing the function for which it was designed, has a very short life with high replacement costs

The object of the present invention are improvements to cathode systems with sacrificial anodes, which allow the life of the rod to be considerably extended while at the same time ensuring better functionality.

According to the present invention, the anode material, for example made of zinc, magnesium or aluminum or other, which forms the anode element is surrounded by an auger whose coils perform the double task of increasing the surface of the anode material and keeping it compressed, and therefore it adheres to the anodic element for a longer time. of the current, being kept compressed by the cochlea, has a greater resistance.

What has been summarized up to now can be better understood from the detailed description that follows given with reference to the attached drawings in which:

Figure 1 shows a sectional view of the cathode disperser according to the invention.

According to the present invention, the cathode disperser according to the present invention is constituted by an element of anode material 1, preferably made of zinc> magnesium or aluminum, to which it is made integral with one of the known means or, alternatively made in a single block with it, an auger 2 which extends either over the entire length of the element 1 or over part of it.

As previously mentioned, the screw 2 has the task of increasing the surface of the anode. therefore its capabilities, both to keep the filling material 3 that surrounds the anode element 1 compressed and therefore more compact and less subject to crumbling.

Said material 3, in fact, under the action of currents, tends to crumble leaving the anodic element 1 devoid of any protection and therefore subject to rapid deterioration.

As can be seen from the attached figure, spacers 4 preferably made of PVC are made integral with the anode element 1, which help to keep said anode element centered.

The screw 1 in one of the possible variants can be replaced by lamellae or similar elements of suitable length and surface and orientation "made integral with the anodic element 1 so as to be able to perform the same function as the screw 2 From what has been described and illustrated up to now , it is evident that the improvements to the cathode dispersers of the present invention represent an effective improvement in the yield and duration over time of this indispensable device.

All the modifications dictated by the practical implementation and by those skilled in the art can be made to what has been described and illustrated up to now, without departing from the scope of the invention as appears from the following claims.

Claims (1)

R I V E N D I C A Z I O N I 1. Improvements to cathode dispersers characterized by the fact that an auger 2 is made integral with the anodic element 1 of suitable length and material, the coils of which contribute to keeping compact and consequently reducing the progressive crumbling of the filling material 3 that surrounds the anode element 1. 2. Improvements to cathode dispersers according to claim 1, characterized by the fact that in place of the screw 1, lamellae or similar oriented ones can be provided, connected in an appropriate manner that allow to perform the same function as in the previous claim. 3. Improvement of the cathode dispersers according to the preceding claims, characterized in that spacers 4, made of PVC or the like, are resilient to the anode element, which help to keep the disperser in vertical position.