DE1000535B - Tensioning grid of the cross grid type with two layers of parallel wires arranged directly on top of one another - Google Patents

Description

GERMAN

The invention relates to a tension grid according to the cross grid type, as it is in particular as a current-loaded Grid in electrical discharge vessels at the same time to maintain the smallest, defined electrode spacing is used.

There have already been proposed cross grids in which the two layers parallel grid wires in the usual way, as with the normal, single-layer tension grids, on a pair of bars, so on two opposite each other, through corresponding cross connections to one Stable frame connected spars are attached. In order to achieve the best possible heat dissipation in such grids To achieve this, the wires in different layers must be as acute as possible with one another lock in. However, such grid arrangements suffer from several disadvantages. on the one On the side, the angle between the grid wires of different layers must not be too acute because then once the coverage factor, d. H. the ratio of wire and free penetration area is too unfavorable is and on the other hand, because to the spars and cross connections with considerable partial areas not completely formed meshes arise, so that the frame is effective for a given The grid area must be chosen to be unnecessarily large, which in some cases leads to capacity difficulties leads.

The invention is based on the object of largely eliminating these drawbacks and nevertheless to ensure even better heat dissipation as well as a very precise grid wire layer.

For this purpose, a tension grid has a cross grid type with two directly on top of one another arranged layers of parallel wires for use in electrical discharge vessels according to the invention at least two pairs of spars formed from oppositely arranged spars, which are in such a way are arranged to each other and attached to each other that both their attachment points to each other as the attachment points of the lattice wires on the spars are also in the same plane as the common ones Points of contact of the grid wires and that only one layer of grid wires on each pair of spars is attached.

It is easy to see that such a construction has several significant advantages. First of all, this enables a very precise grid wire layer, because the grid wires do not need to be deformed out of their plane in any case. But also the tensioning frame can be made with an optimal crossing angle of about 90 ^° , depending on its chosen outer, essentially rectangular shape in a minimal size, since no imperfect tensioning grid of the cross grid type with two directly arranged one on top of the other

Layers of parallel wires

Applicant: Siemens Sd Halske Aktiengesellschaft,

Berlin and Munich, Munich 2, Witteisbacherplatz 4

Walter Schneider and Andreas Weißfloch, Munich, have been named as inventors

formed grid sub-areas occur. The fact that the grid wires are attached to a total of two pairs of spars are attached, they have optimally short lengths and therefore cause a particularly favorable, very fast heat dissipation to the spars. Another advantageous feature of this grid, even when under load Always staying exactly flat is achieved by the equivalence of the pairs of spars inasmuch as than the two wire mesh layers on the frame not on one side, but practically on two sides and still are fixed in the central plane. The spars can therefore be compared to other, corresponding Tension grids to achieve the same stability of the frame are even slightly lighter than before will.

The invention is based on an exemplary embodiment as shown schematically in the drawing is to be explained in more detail.

Four bars 1, 2, 3 and 4 are joined together in such a way the actual tensioning frame that each two bars arranged opposite one another, ζ. Β. ι and 2 or 3 and 4, each form a pair of bars, which are practically equivalent and only from bracket and mounting reasons are made of different lengths. Your cross-section, in the drawing as Rectangle reproduced can also have other shapes and therefore also in a very advantageous manner consist of particularly resistant profiles that are easy and economical to use from thin sheet metal can be shaped. The two equivalent layers of parallel grid wires S and 6 are each on one Pair of spars 1, 2 or 3, 4 in the usual way with considerable internal stresses due to soldering or the like Method fixed in such a way that this

fastening parts, but also all other points of contact are in one plane. For soldering the, for example made of tungsten grid wires at their intersection with each other, these are in Usually gold-plated or provided with another coating suitable for soldering. Grid wires and Spars can be made of the same materials as well as of those with different coefficients of expansion be made.

Claims (3)

PATENT CLAIMS: IO ι. Tension grid in the cross grid style with two directly layers of parallel wires arranged on top of one another for use in electrical discharge vessels, characterized by at least two spars formed from opposite one another Pairs of spars, which are arranged to one another and attached to one another that both their attachment points to each other as well as the attachment points of the grid wires to the Spars lie in the same plane as the common points of contact of the grid wires and that only one layer of wire mesh is attached to each pair of spars. 2. tension grid according to claim 1, characterized in that that the grid wires at the common intersection or contact points with one another are soldered. 3. tension grid according to claim 1 and 2, characterized in that the grid wires of different layers form an angle of 90 ^° with each other. 1 sheet of drawings © 609 740/337 12.