DE1052579B - Grid unit consisting of at least two tension grids - Google Patents

Description

In modern electron tubes, especially those for high frequencies, tension grids are often used used. The grid wires are stretched over a frame, which generally consists of two Consists of spars, which have a transverse stiffening of webs. The bars and possibly the Lattice wires are gold-plated, for example, before being covered. After the stringing, the lattice wires are and spars suitably soldered together.

It is already known to design several grids as tension grids in multi-grid tubes. The single ones Tension grids can then be supported against one another in a known manner by the spars the individual grids are attached to one another in such a way that they are insulated in such a way that each has a tensioning grid carrier of the other is.

Furthermore, it is also known, the adjacent tension grids using spar-like Intermediate pieces, to which they are attached together with the help of noses, as a whole into the intended Insert mica washers. The mica washers that are otherwise used to establish the correct spacing serve the tension grid, so are released from this task.

These known arrangements with several tension grids have not proven themselves for the construction of broadband tubes. This is due in particular to the fact that the capacitance between the spars of the two consecutive grids is greater than the capacitance between the grids themselves two halves 7, 8 , which are mounted with the frame facing outwards. The inner tensioning grid 15 is provided between the two grid halves 7 and 8.

The invention relates to a grid unit for electrical discharge vessels comprising at least two Tension grids with a tensioning frame made of spars, which are connected by webs. According to the invention serve the spars as a carrier of a grid and the webs as a carrier for the following grid, its Grid wires are arranged crossed to those of the other grid. This way you can have two successive tension grids without large capacities between the spars in a rigid unit arrange.

It has proven to be useful if the grid attached to the bars serves as a control grid and the grid attached to the webs as a screen grid. The resulting crossed arrangement of control grid and screen grid has the further advantage that the screen grid is thermally loaded very evenly because the grid unit
from at least two tension grids

Applicant:
Siemens & Halske Aktiengesellschaft,
Berlin and Munich,
Munich 2, Wittelsbacherplatz 2,
Standard electrical system Lorenz

Corporation,
Stuttgart-Zuffenhausen,
Hellmuth-Hirth-Str. 42,
and Telefunken G. mb H.,
Berlin NW 87, Sickingenstr. 71

Dipl.-Ing. Heinrich Schmidt Bridges, Darmstadt,
has been named as the inventor

all grid wires are subjected to the screen grid current in the same way, without longer pieces of wire run in the power supply of a control grid. The common framework can be expedient be made square. The spars must of course be isolated from each other.

The following are some examples of execution shown in FIGS. 2 to 4 in a purely schematic manner explained in more detail.

In the arrangement according to FIG. 2, the bars 1 and 2 represent the support for the (inner) control grid. The bars can for example consist of ceramic and are metallized at the points where they are to carry the control grid wires. The webs 3, 4, 5 and 6 can in this case consist of metal and are rigidly connected to the ceramic rods 1 and 2 , for example by soldering the metal to the ceramic. These bars serve as a carrier for the second grid (screen grid). The control grid wires are thus arranged perpendicular to the screen grid wires. After attaching the grid wires of both grids, what useful

809 769/458

Claims (5)

takes place by soldering, the wire pieces located between the webs 3 and 4 or 5 and 6 are removed from the outer grid so that the cathode can be introduced into the system. The grid unit according to the invention can also be used for divided grids, in such a way that a clamping frame for the two crossed grids is provided on each side of the cathode. The application of the two grid wire planes to the frame can be carried out in a known manner by taking over the grid wires from an auxiliary frame. In Fig. 3, such an arrangement for divided grids is shown. The spars are again provided with the reference numbers 1 and 2. The two bars are attached to a frame with the aid of webs 9, 10. The grid wires 11 are stretched over the bars 1, 2, while the grid wires 12 attached to the webs 9, IO run perpendicular to the grid wires 11. Both grids are therefore attached to the common clamping frame from the same side (from above in the picture). If necessary, it is also possible to give the grid unit according to the invention the shape shown in FIG. The spars and also the webs are provided with the same reference numerals as in FIG. 3. The grid wires also have the same reference numerals. In contrast to the arrangement according to FIG. 3, however, the spars instruct. the points 13, 14 where the grid wires are attached, a greater thickness than at the attachment points of the webs with the spars. In the grid unit according to FIG. 4, the two grids are applied from opposite sides (one from above and one from below). This arrangement has the advantage during manufacture that when the grid is transferred to the subframe, the double frame can be clamped between the two grid planes in order to keep it free during the soldering process and to ensure even re-tensioning. Patent claims: 1. Grid unit for electrical discharge vessels from at least two tension grids with one Clamping frame made of spars which are connected by webs, characterized in that the Spars as carriers of a grid and the webs as carriers for the following grid, its grid wires to those of the other grid are arranged crossed, serve. 2. Grid unit according to claim 1, characterized in that the applied to the spars Grid serves as a control grid and the grid attached to the bars serves as a screen grid. 3. A method for producing lattice units according to claim 1, characterized in that that the insulating material, especially ceramic, existing and bent outward Web (3, 4, 5, 6) connected bars (1, 2) of the control grid at the points where the grid wires be arranged, be metallized that after applying and optionally setting the control lattice wires are stretched and fixed over the webs (3, 4, 5, 6) and that the pieces of wire located between the webs (3 and 4 or 5 and 6) are removed (Fig. 2). 4. A method for producing lattice units according to claim 1, characterized in that first one grille over the spars and then the other grille from the same side over the is stretched and fastened on the bars placed webs (Fig. 3). 5. A method for producing lattice units according to claim 1, characterized in that that the spars and / or webs in the support area of the tension grid wires have a greater thickness than on the attachment points of the spars with the webs and that the wires of both grids from opposite sides Pages are applied (Fig. 4). 1 sheet of drawings © 809 769/458 3.59