SU57687A1 - Multi-ion Ion Device - Google Patents

Description

Multi-anode ion devices —OR — devices with a single cathode and with nets intended for the independent ignition of a gas discharge in separate anodes are already known.

The present invention relates to such an apparatus and consists in the fact that a multi-cell screen in which anodes and grids are placed is electrically connected to the cathode through ohmic resistance and capacitances, and the grid glands are passed through a hollow anode closed from both insulator sides.

In FIG. 1 shows a general view of a multi-modal instrument; FIG. 2 - top view of the instrument screen; FIG. 3 - a general view of the screen with a partial cut; FIG. 4 - section of the screen cell; FIG. 5 - top view of the screen of a modified form.

The device is a glass cylinder 1, inside of which there is a heated oxide cathode 4 with thermal shielding and two micro cell screens 2, fixed by means of centering mica disks 6. Inside the screens there are anodes 5 and controls in the cells W (FIG. 2) grids 5.

The outputs of the anodes are labeled 7, the outputs of the grids are labeled 8.

The use of an oxide cathode, generally speaking, is not necessary. Any other type of cathode, for example, a mercury cathode equipped with a suitable device for the light spot, can be used.

In order to ensure good controllability of the grids and at the same time to maintain a sufficiently small value of the voltage for & kigani, a lot of cell, the screen needs to communicate the corresponding potential.

For this purpose, the screens 2 are equipped with special leads 9 and are connected to the cathode by means of a sufficiently large ohmic resistance shunted by a capacitor (not shown in the drawing).

If this measure is not applied, i.e. leaving the screen not attached anywhere, its potential could vary within arbitrary limits (due to the dinatron effect), which would cause the formation of filamentous discharges and, as a result, overheating and even penetration of the screen.

To obtain high sensitivity and low grid currents. device must be shielded from

of the discharge space, not only the grids, but also the grid entries. Due to their large number and inexpediency, as a result, the use of individual screens in the proposed construction for this purpose uses the central cell 11 of the screen (Fig. 2). The inlets are placed in this cell and, after being fixed, the cell is closed off from the side facing the cathode with a metal grid or a continuous metal screen that prevents penetration of the ionized gas into the cell.

The authors indicate that when an arc burns in the chains of any of the anodes and the whole space between this anode and cathode is filled with an ionized gas, it is necessary that the concentration of ions near the grid of the other anodes be sufficiently small, since otherwise they could lose controllability. Therefore, the grids are placed in the depth of the cells at such a distance from the edge of the cell that is not less than the diameter of the grid. The doubled mesh diameter seems to be the limiting distance to which it is advisable to remove the mesh.

FIG. Figure 3 shows an exemplary design for mounting a sephka inside cells. As can be seen from the drawing, the grids are fastened with the help of Allundum or from other insulating material.

sticks protruded through the screen and; mesh.

FIG. 4 shows another embodiment of one of the cells of the cellular screen. The arrow shows the direction of the discharge path. In this construction, the grid: the output is protected from ionized gas, as it passes inside the anode, which is closed with both KONTS01V insulators 12.

The screen can have a larger number of anodes, for example, eighteen (Fig. 5), and its central cell, as well as in the screen of FIG. 2 is used to place the leads of the grids.

The subject matter of the invention.

Claims (2)

1. Multi-channel ion device An IC device with grids designed to independently ignite the gas discharge in the individual anode circuits, characterized in that a multi cell screen in which the anodes and grids are placed is electrically connected to the cathode via ohmic resistance or a combination of ohmic resistance and capacity. 2. The form of implementation of the multi-anode ionic device or apparatus according to claim I ,. characterized in that for screening the grid inlets, they are passed inside the hollow anode, which is closed on both sides with insulators. A. to the author's testimony G. I. Babat, V. Krasilov, M. G. Lozinsky and S. A. Gumennik L 57687 Fig2 // f and d. 4 7-JO 3 ig.Z  I g Y% g} H - JnttrHp 2D f and g 5