DE566287C - Anode grid for metal vapor or noble gas rectifiers with protective tubes surrounding the anodes - Google Patents

Description

The purpose of the invention is to prevent reignition in metal vapor and noble gas rectifiers to -prevent that in the blocking times to the then negative anodes flowing glow discharges that easily turn into arc discharges and thus Give cause for re-ignition, either completely suppressed or at least so weakened that they can no longer be dangerous to the operation of the rectifier.

It has already been proposed to solve this problem that one within the one of each main anode of the rectifier

»5 tubular protective sheath enclosing in a known manner in the immediate vicinity of the Anodes ion trap electrodes (grids) in the form of preferably parallel to the arc path extending metal surfaces so that they have the cross-section in the vicinity of the anode of the protective tube in as uniform a distribution as possible. Such ion trapping electrodes can be attached in an insulated manner or be conductively connected to the anode protection tube, if this is made of metal.

The previous grids have the disadvantage that they have a special spatial training do not take sufficient account of the arc during operation. The arc needs namely in some Share more, in others less neutralization areas if the risk of occurrence should be excluded from re-ignition.

According to the invention, the grid part through which the arc passes has a larger surface per cross-sectional unit than the part not penetrated by the arc. The streamline of the arc is known to be eccentric in the anode protection tubes in the direction of the cathode. The new grids are therefore given eccentric shapes, so that the surfaces of the grid are pressed together in the part of the same ⁴ S penetrated by the arc; the sheet metal strips forming the grid can also be made wider in this part of the grid than in the other parts of the grid.

Exemplary embodiments are shown in the drawing, namely FIG. 1 to 4 plan views of new anode grids and FIG. 5 shows a schematic cross section through an anode grid.

According to Fig. 1, the grid consists of sheet metal strips 1, which are combined at 2 to form a bundle of rays. According to FIG. 1 the apex of the beam lies almost on the wall of the anode protection tube, according to FIG. 2 eccentrically moved further inwards, within the protective tube. To Fig. 3 consists of the grid of nested cylindrical rings, which after a Side too crowded. According to

Fig. 4 finally are across the rays ι laid strips 2 provided, which are compressed to the vertex of the beam and are spread further apart on the other side.

FIG. 5 shows a schematic cross section through an anode protection tube. the The anode is denoted by 3, the anode protection tube by 4 and the grid by 5. With the line 6 indicates the limit up to which an ion cloud in the direction of the The anode tends to penetrate. You can see that the ion cloud is asymmetrical and eccentric trains. For neutralization in front of the anode, the individual parts of the anode tube cross-section are therefore different large neutralization areas required. The best possible shape of the grid is obtained if one considers the size of the neutralization area in the various parts of the protective tube cross-section stops at the point where the ion cloud can penetrate the furthest maintains. Schematically shown, the shape of a lattice strip will have to be designed as indicated at 7. Of the The lattice strip thus gets to the edges • too lower and to the streamline of the Arc to greater width. Around the grid strips near the arc beam line not to have to run too wide, it is recommended that in this part, as shown in Fig. ι to 4, for example, the Enrich grid strips and thus the neutralization areas.

Claims (5)

Patent claims: 1. Anode grid for metal vapor or noble gas rectifiers with enclosing the anodes Protective tubes, characterized in that the grid part penetrated by the arc has a larger surface per cross-sectional unit as the part not penetrated by the arc. 2. anode grid according to claim 1, characterized in that the grid is eccentric nested cylindrical sheet metal sleeves are provided. 3 .. anode grid according to claim 1, characterized in that the grid consists of consists of a bundle of sheet metal strips that radiate from a point eccentrically located in the anode protection tube go out. 4. anode grid according to claim 1 and 3, characterized in that the radial arranged sheet metal strips are crossed by Ouerblechplatten that are denser and on one side of the grid on the other side are attached at further intervals. 5. anode grid riach claim 1, 3 and 4, characterized in that the the lattice forming sheets in the part of the lattice penetrated by the arc are made wider than in the other parts of the grid. 1 sheet of drawings