DE498822C - Electrolytic rectifier - Google Patents

Description

Electrolytic rectifier In electrolytic rectifiers for alternating current it is known to keep the electrolyte at a low temperature to get that it is in a thermosyphonic circuit through a current passage point containing electrolyte vessel and also by a spatially separated from this Recooling vessel moved. It is also known that the electrodes are in a horizontal position introduce into the electrolyte vessel; however, this was previously horizontal Position of the electrodes whose cooling is carried out by a water jacket that they provide push through. Finally, it is known to oppose the electrodes by stuffing boxes to seal the electrolyte.

The essence of the invention is that from the top wall of the electrolyte vessel, in which the electrodes, sealed against the electrolyte, in a horizontal position are introduced, a riser to the upper part of the above arranged Recooling vessel goes, while a return line going off from the bottom of the recooling vessel reaches down past the electrolyte vessel under this and opens into its bottom wall. This device achieves that without prejudice to the thermosyphonic circuit the electrodes and their glands are easily accessible from the side.

It is well known and common practice at the deepest point of one thermosyphonic return line to arrange a tap, which, however, so far in general was only used to drain the entire amount of liquid. According to the invention such a tap is used to remove the electrolyte from the electrolyte to temporarily drain solid components, so that the electrodes are constantly clean Electrolyte fluid has entered.

For a better understanding and easy implementation of the invention an embodiment of the invention is shown in the drawing.

Fig. I is a view showing the a-11 general arrangement of the device illustrated according to the invention.

Fig. 2 is a sectional view of the electrode box.

Fig. 3 is a plan view of Fig. 2.

In Fig. I i represents the electrical box, which is from the racks is worn in any way. The electrode box z contains three electrodes 3, 4 and 5, 3 and 4 are the cathodes and 5 are the anode. Each electrode is from the the rest separately and isolated from the electrode box i. To the top of the Electrode box i is expediently connected to the line 6, the upper end of which after the upper part of the cooling container 7 rises. .

The cooling container 7 is expediently carried by the frame 2 and is isolated from him. The line 8 follows from the bottom of the cooling container 7 down to a place below the @electrode box i, where it bent upwards and to the bottom of the Box connected. is. A tap, tap g is expediently connected to line 8.

The cathodes 3 and 4 are constructed using rolled aluminum can be. This construction is carried out in the following way: The cathodes 3 and 4 forming plates are each recessed in the middle, so that rods are screwed together, welded or otherwise attached to it. When the insulating tubes r2 are pushed over the rods io, a seal r i with the help of a Cap 13 and a nut 14 are pressed together. That way, there will be access of the electrolyte to the rods and prevents these rods from tearing apart.

The anode 5 consists of lead or iron plates that are inserted through the rod 15, and is isolated and held in place in the same way, as has just been described in connection with the cathodes 3 and 4. Stuffing boxes 16 prevent any electrolyte leakage; they are in the cover plates 17 formed, which is arranged on the side of the electrode box i and by bolts 18 are attached.

The mode of operation of the device according to the invention is as follows: Of the. internal resistance of an electrolytic rectifier stirs mainly from the heat generated in the electrolyte by the passage of current becomes: In the device according to the invention, the electrolyte; the electrode box i, the lines 6 and 8 and the container 7 fills, heated when the flow from the Anode 5 passes over to one of the cathodes 3 or 4. As a result of the just described Arrangement of these parts assumes a constant circulation of the electrolyte between the Electrode box r and the container 7 a. The cool liquid from the container 7 constantly replaces the heated liquid in the electrode box r. Through this thermosyphonic effect, the liquid is continued in the electrode box i renewed and preserved at a low temperature. The effect of the circumstance; that this low temperature is maintained in the electrode box i in that the decomposition of the aluminum electrodes is minimized and the chemical composition of the electrolyte remains unaffected.

Claims (2)

PATENT CLAIMS: r. Electrolytic rectifier for alternating current, the electrolyte of which is kept at a low temperature by being in a thermosyphonic circuit through one containing the current passage point Electrolyte vessel and moved through a recooling vessel that is locally separated from it, characterized in that from the top wall of the electrolyte vessel (i) into which which are sealed against the electrolyte in a known manner by stuffing boxes (r6) Electrodes (3, 4, 5) are inserted in the known horizontal position, - A riser line (6) up to the upper part of the recooling vessel arranged above (7) goes, and that from the bottom of this vessel (»outgoing return line (8) on Electrolyte vessel (i) reaches down under it and opens into its bottom wall, such that the electrodes and their glands are easily accessible from the side are. - 2. Rectifier according to claim i, characterized in that a valve (9) is arranged in a manner known per se at the lowest point of the return line (8), by means of which solid constituents which are temporarily separated from the electrolyte can be drained, so that the electrodes constantly get pure electrolyte liquid.