FR2879849A1 - HIGH CURRENT CURRENT TRANSMISSION DEVICE - Google Patents

Abstract

Device for transporting electric current in a corrosive and / or high temperature environment This system comprises a conductor (1) with low resistivity (<5.10 <-8> Omega m), protected by a casing (4) resistant to corrosion and temperatures above 600 degree C. This casing (4) and its caps (5) are sealed by welding (6), in order to protect the conductor (1). The electrical connection is made by clamping and welding (3). The conductivity of the pad (2) is reinforced by a conductor (1), the electrical connection (3) of which is protected by a welded cap (5) (6). The conductor (1) is force-fitted into its casing (4), and the vacuum or a neutral atmosphere is produced in the spaces (7) between the casing and the conductor. The conductor (1) has a 0 20 mm for an intensity of 1000 A.

Description

The present invention relates to electrical power circuits

placed under conditions of high temperature or high corrosion and relates in particular to a device for carrying high intensity current.

Traditionally, electrical power circuits are made of materials resistant to corrosion and / or to temperature, such as stainless steel, to the detriment of electrical conduction. In fact, metals having a high conductivity such as copper or aluminum degrade greatly above 300 C or in a corrosive environment and are therefore not used for this reason.

Unfortunately, metals or their alloys which resist corrosion and / or high temperatures exhibit much lower electrical conductivity. Thus, the conductivity of stainless steel is 20 times lower than that of copper. For other metals, the prices are prohibitive. Thus, nickel is much more expensive and has a conductivity 4 times lower than copper.

The use of materials resistant to corrosion and / or high temperatures generally leads to very heavy and very expensive circuits. For example, a conductor carrying 1000 A weighs approximately 10 Kg per meter if it is made of copper with a section of 100 mm x 10 mm and approximately 150 Kg per meter if it is made of stainless steel for with a section of 100 mm x 150 mm.

In addition, when the temperature is high, most of these materials see their conductivity drop (from 30% to 50%). Even larger sections must therefore be provided to compensate for the drop in conductivity.

Many systems require electrical circuits capable of conducting current under these particular conditions such as, for example, chemical or metallic electrolysis, heat treatment and fuel cells.

Therefore, the object of the invention is to provide a high intensity current carrying device which, while not being susceptible to corrosion due to high temperatures or a corrosive atmosphere, does not require the use of a bar. with too large a section.

The object of the invention is therefore a device for transporting high intensity electric current subjected to a temperature above 600 ° C. or placed under high corrosion conditions, consisting mainly of a metal conductive bar having a resistivity of less than 5.10. -8 Q m. ; characterized in that the conductive bar is enclosed in a protective casing made of a corrosion resistant metal such as stainless steel.

The aims, objects and characteristics of the invention will emerge more clearly on reading the following description made with reference to the drawings in which: FIG. 1 represents the supply circuit of a contact pad.

FIG. 2 represents an electrical distribution circuit.

Claims (3)

1. A device for carrying high intensity electric current subjected to a temperature above 600 C or placed under conditions of high corrosion, consisting mainly of a metal conductor bar having a resistivity below 5.10-8 Q m. ; characterized in that said conductive bar is enclosed in a protective casing made of a corrosion resistant metal such as stainless steel. 2. Device according to claim 1, wherein said conductive bar is separated from said protective envelope by vacuum or an oxygen-free atmosphere. 3. Device according to claim 1, wherein said protective casing is in direct contact with said conductive bar so that the latter cannot be corroded.