DE1019386B - Tension grid with grid wires crossing at an acute angle - Google Patents

Description

GERMAN

The invention relates to a tensioning grid of the cross grid type for electrical discharge vessels according to claim 13 of patent application S 38467 VIIIc / 21g at least two layers of parallel wires are arranged directly one above the other so that the wires of different layers are at any angle form with each other.

The thin grid wires required today in centimeter wave technology are used as tension grids especially when the grid in question is loaded with current, so that the ones caused by the electron impact, the very thin ones Wires, occurring heat to avoid destruction of the grid wires as quickly as possible to the thick stenter frame, which conducts heat well, must be dissipated. This is achieved in that the grid wire lengths from any point of intersection of the effective grid area to the Select frame bars as short as possible.

A tension grid has already been proposed according to the cross-grid type, in which, unlike in the past, two pairs of spars are provided and the grid wires of different layers enclose a right angle with one another. This grid shape is always particularly favorable when the extent of the effective grid area is approximately the same in both directions, that is to say that the grid area is approximately a square or circular area. However, if one of the directions is particularly preferred, in that the expansion in one direction is selected to be particularly large, the heat dissipation via the wires tensioned in this direction is very small due to the great length, so that the advantage over a normal parallel grid is no longer significant .

It has therefore also been proposed that, in the case of such longitudinally extending grids, only a pair of spars should be provided, as was customary up to now, and that the grid wires should be arranged in such a way that they enclose any acute angle with one another. In this case, the two lattice stalks are connected in a known manner by appropriate cross-connections to form a stable frame. In order to achieve the best possible heat dissipation in such grids, the wires of different layers must enclose an angle with one another that is as acute as possible. However, such grid arrangements have certain disadvantages with regard to the control effect. Particularly in the case of grids subject to strotn stress, it is very important that the ratio of wire and free penetration area is selected as small as possible, ie that the wire length of the associated surface area is as small as possible for a given area. As is known, this is the case with a square surface or with a tensioning grid with an acute angle
crossing grid wires

Addition to patent application S 38467 VIII c / 21 g
(Interpretation document 1 013 798)

Applicant:

Siemens & Halske Aktiengesellschaft,

Berlin and Munich,
Munich 2, Witteisbacherplatz 2

Andreas Weißfloch, Munich,
has been named as the inventor

In other words, if the grid wires are of different layers, make a right angle with each other lock in. The invention is based on the object corresponding to these two contradicting ones Requirements to find an optimal compromise solution.

In the case of a tension grid of the cross grid type for electrical discharge vessels, in the case of the claim 13 of the patent application S 38467 VIIIc / 21g at least two layers of parallel wires directly are arranged one above the other so that the wires of different layers make any angle with each other form, therefore, according to the invention, form the grid wires of different layers - one in view optimally sized for heat dissipation and control effect. Angles to each other. For this lets however, the size of the optimal angle is not specified explicitly, since different, aspects related to the discharge mechanism are decisive.

The invention is based on an exemplary embodiment, as shown schematically in the figure, are explained. Two spars 1 and 2 are by means of two cross connections 3 and 4, approximately the same cross section as the lattice bars, to form a rigid one Frame connected to one another by means of a corresponding mechanical connection. The two equal, under one optimally sized in terms of heat dissipation and control effect. angle intersecting layers of parallel wire mesh wires 5 and 6,

709 OT245

are usually under considerable internal stresses attached to the two spars by soldering or similar processes.

Claims (1)

Claim Tensioning grid of the cross grid type for electrical discharge vessels with at least two layers parallel wires are arranged directly one above the other in such a way that the wires are in different layers Form any angle with each other, according to claim 13 of patent application S 38467 VIIIc / 21g, characterized in that the lattice wires of different layers one with regard to Acute angles optimally dimensioned for heat dissipation and control effect form. 1 sheet of drawings