DE1026001B - Current loadable tensioning grid for electrical discharge vessels - Google Patents

Description

GERMAN

The invention relates to a grid electrode for electrical Discharge tubes, which is designed in the manner of a tension grid, in which the grid wires be held taut in a rigid frame.

There is already a method for producing a non-current-loaded tensioning grid, namely one Control grid for disc tubes has become known in which on an approximately rectangular, rigid clamping frame with a circular opening wires made of a thermally highly resilient material, such as. B. tungsten, to be wrapped. In order to achieve a sufficient mechanical with a small material dimension of the carrier part Rigidity with the relatively large, cantilevered structure caused by the disc tube structure To achieve grid surface, the clamping frame is relatively wide, but different due to its shape wide, designed so that the heat dissipation - and thus also the change in mechanical tension in the individual grid wires, e.g. B. in the case of a current load, take place quite differently would.

In this and in another known tensioning grid for disc tubes, the internal stress is de- of the grid wires by subsequent bead-like deformation; Lattice girder achieved.

While in the known tension grids of this type, these electrodes have so far mostly only been used as control grids or has used unloaded grids, the object of the invention is to create tension grids, which are able to cope with high thermal loads, in order in this way, in particular, to screen grids or to be able to create similar current-loaded electrodes according to the tension grid type.

This is achieved with a current-loaded tension grid with grid wires attached to two bars, with bars with high thermal conductivity connected by crossbars to form a rigid frame, in which the bar ends are used to hold the grid and where the grid wires can glow due to the power consumption Invention characterized in that for good heat dissipation or heat radiation of the heat generated by the power consumption, each individual spar in the area in which the lattice wires rest on the spar is dimensioned approximately equal to the lattice opening width in the direction of the lattice plane, so that the length of the cantilevered , a high heat resistance and a small coefficient of thermal expansion owning lattice wire pieces compared to the two spar widths is only small, and that the Ouerstege with the lattice spars are connected to each other at the narrow ends of the spars. While keeping the grid wires taut, such a current-loaded grid changes its current-loadable tensioning grid
for electrical discharge vessels

Applicant:

Siemens & Halske Aktiengesellschaft,

Berlin and Munich,
Munich 2, Witteisbacherplatz 2

Dipl.-Ing. Herbert Grombach, Munich,
has been named as the inventor

was not or only insignificantly from the neighboring electrodes.

The grid wires can be made of tungsten, in particular thoriated tungsten, with particular advantage. The use of tungsten has the advantage over that of molybdenum that the thermal expansion is significantly less. In addition, thoriated tungsten wires have better mechanical strength at high temperature.

The thickness of the wires can be selected between 8 and 20 μ, whereby in particular wires of 15 μ Thickness proved suitable. The electrode allows such a high thermal load capacity that the wires get to glow without losing any significant amount of firmness.

The bars are dimensioned so that in turn a high mechanical strength for keeping the grid wires taut is achieved and on the other hand a high thermal conductivity takes place for the removal of the heat generated within the grid opening. For this purpose it is extraordinarily wide, in particular almost equal to the width of the grid opening sized spars can be at least as wide that their width is half or a third of the grid opening amounts to.

A major advantage of this tension grid over the previously known is that with With the help of the crossbars in the individual lattice wires, internal stresses of equal magnitude were created in the Change operation, but only in such a way that the voltage is always maintained even in the current-loaded state is the same in all wires. It is thus avoided that any particularly preferably cooled grid wires in operation may have a considerably larger, tensile stress leading to rupture obtained. To the

709 909/319

In this way, the equalization of the individual grid tensile stresses achieved is more advantageous Assign the special material properties of the grid wires.

The invention is to be explained in more detail with reference to the drawing. The figure shows an embodiment in its essential parts for the invention in a simplified representation.

The grid wires 1 consist of approximately 15 μ thick thoriated tungsten wires, which are coated with gold are provided. The spars 2 and 3, which together with. the cross stiffeners 4 and 5 are rigid Form clamping frames and consist, for example, of molybdenum, are also expediently gold-plated, with This gold solder creates a firm connection between the grid wires and the clamping frame. The width the spars 2 and 3 is extremely large in the illustrated embodiment, even larger measured as the opening width of the grille. This ensures good heat dissipation, and that The grid is so resilient that the wires can be made to glow without the The tension of the wires decreases. This ensures proper spacing of the grid wires from the Neighboring electrodes guaranteed.

Claims (4)

Patent claims: 1. Current-carrying tensioning grid with grid wires attached to two "" bars, with the bars high thermal conductivity are connected by crossbars to form a rigid frame in which the Bar ends are used to hold the grid and in which the grid wires through the power consumption can glow, characterized in that for good heat dissipation or heat radiation the one created by the current uptake Heat each individual spar in the area where the grid wires rest on the spar in Direction of the grid lines approximately equal to the grid opening width is sized. so that the length of the cantilever, a great heat resistance and lattice wire pieces with a small coefficient of thermal expansion compared to the two Spar width is only small, and that the transverse webs (4, S) with the lattice bars (2, 3) on the narrow Ends of the spars are connected to each other. 2. tension grid according to claim 1, characterized in that the grid wires made of thoriated Are made of tungsten. 3. tension grid according to claim 1 or 2, characterized in that the thickness of the grid wires 8 to 20 μ, in particular about 15 μ. amounts to. 4. tension grid according to claim 1 to 3, characterized by a coating of gold or the like. Considered publications:
German Patent No. 820,939;
U.S. Patent No. 2,610,387. 1 sheet of drawings © 709 909/319 3.58