DE159002C - - Google Patents

Description

PW

IMPERIAL

PATENT OFFICE.

The present invention relates to electrical resistors in which a number thin, flat metal plates with an oxidized surface are used, which, in contact with one another, at the ends with Power supply terminals are provided and stored in a non-conductive channel. While up to now the oxidation of the plates by burning them out in a fire or by chemical means

ίο was achieved, this will be according to the present Invention caused by a strong electric current to a thoroughly uniform Obtain oxide coating in a certain thickness.

Appropriately thin nickel silver plates of suitable design are used and to stacked on a column or inserted into a gutter which does not flow into one of the streams conductive block is incised. Then an electric current becomes sufficient high voltage passed through, so that the temperature of the metal sheets is considerable and the surface of each sheet is oxidized on all sides, hence the specific one The resistance of the column during later use is much higher than before oxidation of the sheets. The resistance of the column is proportional to the size and number of the plates; the column has a large "heat capacity" and is in spite of the relatively high temperatures to which it is exposed can be very permanent.

By passing a strong current through it, the oxidation can completely do this the resistances achieved are made correspondingly strong, d. H. you can go for a For a certain time of glow the resistance for the one to be sent through later is considerable Measure a weaker current, then if necessary intensify the oxidation and turn it on In this way, the oxide coating is kept strong as required. But if the plates are annealed in the fire, so can the coating can hardly be produced in such a way that it corresponds to the circumstances the plates do not undergo exactly the same oxidation as they do by electrical annealing is attainable.

German silver is particularly suitable for building up the resistance, as it is only available with oxidized at a very high temperature. This temperature is said to be by a current of one Strength can be achieved, as such later when using the column as a resistor not is used. It is therefore, since no more temperatures occur, which would cause a higher oxidation, the size of the resistance unchanged stay. Sometimes it can also be useful to make the plates alternately larger and to take smaller in diameter in order to thereby in a known manner protruding edge ribs for better dissipation of the heat can be achieved by radiation without thereby changing the conductive cross section learns.

In the accompanying drawing, FIG. 1 shows a view of a device according to the invention.

Fig. 2 is a cross-section, while Figs. 3 and 4 show two pillar element plates with lateral lugs, which alternately give rise to rib-like lugs on the column for dissipating heat. These plates c are pushed into the groove b of the slate prism α , which is undercut on one side; d are the metallic end contact pieces, one of which is provided with a clamping screw e. Resilient parts can expediently also be switched on between the parts d and the end plates of the column in order to take account of the expansion of the column due to the heating.

Claims (1)

Patent claim:
Electrical resistance from a column of individual metal plates, which are covered with a poorer current conductor, characterized in that the plates, which are preferably made of nickel silver, by the action of a. Electric current, which has a considerably higher voltage than the currents for which the column is to be used later, are coated with an oxide layer, the strength and conductivity of which can easily be adapted to the resistance to be achieved by using stronger or weaker formation currents. 1 sheet of drawings.