SU62685A1 - Mercury anode rectifier - Google Patents

Description

The known anode of the mercury rectifier is a qi (iH), iip, closed end with a butt-end section of the cuff. In this case, the entire anodic TOis enters the end flat (or slightly concave) surface of the anode located across the cuff — perpendicular to its axis. The presence of grids constricting the cuff cross-section, causes a high direction, which leads to a high electrical current. The location of the collective anode surface perpendicular to the direction of the electron drift (i.e., perpendicular to the axis of the cuff) gives rise to d) the current of high anodic potential drops and the instability of the discharge, detrimental effects. in terms of efficiency and reliability of the mercury rectifier.

These phenomena are especially pronounced at high discharge currents and low pressures. These phenomena practically limit the load of the mercury rectifier.

The described mercury rectifier anode is characterized in that its collecting surface is located in the plane of the electron drift (parallel to the axis of the cuff) or at a small angle to it. Structurally, such an anode is made in the form of a row of plates, almost parallel to the axis, in the form of a set of rods, in the form of a deep perforator of a massive anode, or in a similar manner.

FIG. 1 shows the anode in section; in fig. 2, 3 and 4 variants of anode designs.

The electrons (the direction is shown by arrows), having passed the grid / and acquiring a high direction of movement, meet the surface of the anode 2, located at a right angle (or close to direct) to the direction of movement of the electrons. The anode and the grid are enclosed in a tube of a 3-cuff, parallel to the axis of which electrons move.

The anode surface is made with protrusions 4, thanks to which

L2 62685-2-

The electrons meet the surface of the anode with a sharp (close to zero) angle.

Such a positioning of the co.checting surface drastically reduces the drop in potential; 1a at the anode and increases the stability of the discharge, especially at low pressures. The heating of the proposed anode, with n | equi1x xv.suvi x, is much lower than usual.

In the design of the anode (Fig. 2), the rd n.: 1astin 4 is located on the mouth of the oci cuff. Before each of the anodes are placed the same grid and fi. 5.

Measurements of the display, IH, h. The anode (Fig. 2), so as to increase the load of the mercury rectifying, please, h. Another advantage of the anode is that the distance between the anode and the grid is reduced, which allows for improved deionization conditions.

Such a decrease in the aode of a conventional construction leads to an increase in the anode drop.

This form of anode can be obtained by many constructive solutions. Mn. For example, in FIG. 3 shows a massive anode, drilled on a significant h. Chubin from the end surface.

FIG. 4 shows an anode with rods 6 screwed into its end. The side surfaces of which collect current.

11th ed. M e i- and 3 o b ete n i

An anode of mercury, characterized in that this active part is composed of a series of plates arranged in the direction of the axis — flasks, pins, etc., elements, the collecting surface of which makes a small angle with the axis of the cuff.