DE241473C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- Jig 241473 CLASS 21c. GROUP

Addendum to patent 229454 of April 26, 1908.

Patented in the German Empire on March 30, 1909. Longest duration: April 25, 1923.

In the patent specification 229454 resistance bodies for electrical currents are made of rock described that is sprinkled or wetted and so an even resistance for continuous current or a resistance that increases until the current is gradually interrupted forms. The shape of the resistor body can be very different; one of the most functional forms consists of stone gravel, which is held in a certain bulk form by a cover and is sprinkled or wetted. This form can be in the following should be presupposed for the sake of clarity, although what has been said also relates to other forms.

The obvious thing to do is to make the resistors so that the electric current passing through them moves in the same axis as the liquid being sprinkled. The easiest way to do this is to create a resistance from crushed stone, which is held together in a pillar-like manner in a clay vessel, the wetting liquid, generally water, in a certain _; Amount is passed from top to bottom over the gravel, while the electrodes are arranged above and below. Under certain circumstances, however, this arrangement has considerable disadvantages as a consequence, namely a strong formation of sparks and large arcs. The following has been found to be the cause of this. In the direction of the electric current, layers with less water are formed, because with the main wetting method of this special type of resistors, the sprinkling water should partially or completely evaporate in the resistors. In the less watery layers, voltage increases occur and these lead to arcs in the layers concerned and short-circuiting of the resistor. The characteristic of this arrangement and the cause of its possibly unfavorable effect is that well-conducting, namely water-rich layers with poorly-conducting, namely less water-free layers are connected in series. The disadvantage mentioned is avoided by the arrangement described below.

If one imagines the resistance body constructed in such a way that the current direction is horizontal is, while the water is moving from top to bottom as before, then lie also more water-rich and water-poor layers on top of each other, but they are not more electrically connected in series, but in parallel. The individual sections between The electrodes therefore have a uniform resistance, and excessive voltages can no longer be applied in individual sections appear. It has in fact been shown that in this way completely reliable Resistance bodies can be produced.

In order to achieve this, it is now evident that it is not necessary to specify the direction of the liquid flow or the resulting steam

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Claims (1)

perpendicular and that of the electric current horizontally, you always get the same result if you only follow the direction Ρλτεντ claim: Resistance body made of wetted rock according to patent 229454, marked 10 direction of the two flows perpendicular to one another by such an arrangement of the elec- other chooses, taking of course, j trode that the direction of the electrical borrowed deviations from the exactly perpendicular \ Stromes on the direction of movement of the th direction are permissible. j liquid is essentially vertical.