DE591624C - Device for achieving an even current consumption of the parallel working anodes of a mercury vapor rectifier - Google Patents

Description

GERMAN EMPIRE

ISSUED ON JANUARY 25, 1934

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21 g GROUP

2ig A 1363.

General Electricity Society in Berlin

Anodes of a mercury vapor rectifier

The invention relates to mercury vapor rectifiers, in particular those where the anodes either directly or via chokes or transformer windings s are connected in parallel, and is primarily aimed at distributing the load on equalize the anodes.

Each of the anodes working in parallel should be surrounded by a protective tube.

Although the anode protection tubes are relatively good, uniform ones in their own right Distribution of the load on the anodes working in parallel, it is their use does not ensure that it does not, especially in the case of sudden ones Load changes, different gas pressures are present in the protective tubes, whereby the uniformity of the load can be significantly disturbed. This post

ao part is avoided according to the invention in that the protective tubes of the working in parallel Anodes are connected by channels between the protective tube end and the anode face are arranged. Appropriately, the device is made so that the anode protection tubes of the parallel working anodes below the anode face into a common Pass over the protective tube. Each group of anodes connected in parallel thus forms a unit, particularly with regard to guiding the arc from the cathode. A grid is advantageous at the transition point between the individual protective tubes arranged in the common protective tube. Through this grid all discharge paths of the relevant. group detected anodes connected in parallel.

It is already known to use anodes in parallel, and it is already become known to divide an anode into several partial anodes, so that these partial anodes connected in parallel are located in a common protective tube. In these known arrangements, however, the specified partial anodes are not each surrounded by protective tubes, While in the subject matter of the invention, each of the anodes connected in parallel in one own protective tube is arranged to ensure the evenness of the parallel-connected discharge paths and to perfect their parallel work.

Furthermore, arrangements have become known in which several anode protection tubes communicate with each other through channels. The channels flow into the

Close to the housing cover, a considerable distance above the anode, into the protective tubes and are intended to prevent gas from accumulating in the anode protection tubes. The protective tubes are therefore through the channels with the vacuum chamber of the rectifier, the suction tube for the vacuum pump is attached to the cover, connected, or also directly connected to this suction pipe, so that the suction flow . runs from the vacuum chamber through the protective tubes to the suction tube of the pump.

With this type of attachment of the channels

But above the anodes there can still be steam accumulations, especially in the case of sudden Load changes that occur in the protective tubes, specifically in the discharge path in front of the anodes, which, as mentioned at the beginning said, is very undesirable. Such a disadvantage can occur when attaching the Channels according to the invention do not occur, as a balance of the steam up th in the Discharge path is made possible in front of the anodes connected in parallel.

The invention will be explained in more detail with reference to the drawing.

Fig. Ι shows the partial longitudinal section " a rectifier with a compensation path between the anode protection tubes,

Fig. 2 shows a somewhat modified embodiment of the invention.

In Fig. Ι and 2 are 1, 1 the anodes, the are surrounded by the cylindrical protective tubes 2, 2. The interiors of the protective tubes can be connected below the anodes by one or more tubes 6, as in FIG Fig. Ι is indicated by the dotted lines.

The connecting tube can be made of conductive or non-conductive material that has the ability to balance the ionization between the two protective tubes.

In the embodiment according to FIG. 2, the anodes are each with one Protective tube 2 provided, which extends down to the grid 7 upstream of the two anodes. The supporting tube 8, which is common to both anodes, is then located under these grids.

Claims (3)

Patent claims: 1. Device for achieving a uniform power consumption of the parallel working anodes of a mercury vapor rectifier, each of which is surrounded by its own protective sleeve is, using ducts connecting the protective tubes, characterized in that the channels are arranged between the lower end of the protective tube and the anode face. 2. Apparatus according to claim 1, characterized in that the anodic protection tubes (2) merge into a common protective tube (8) below the anode face. 3. Device according to. Claim 2, characterized by the anodes on the Transition point between the individual protective tubes (2) and the common tube (S) upstream grid-like internals (7). 1 sheet of drawings