DE2303776B2 - ELECTRIC DISCHARGE TUBE WITH ONE OR MORE MESH GRID - Google Patents

Description

The invention relates to an electric discharge tube comprising one or more cylindrical J5 Contains mesh, the left-hand and right-hand helically wound, to both Sides running along the same cylinder surface and welded together at the cross points are made up of molybdenum or another metal with -to a high melting point.

Such a grid is referred to as a mesh grid and is known from US Pat. No. 2,795,726. Mesh grids constructed in this way, which are mostly used as control electrodes in discharge tubes with a ·)> high output power are generally retained under normal operating conditions sufficient mechanical stability. The temperatures the Masehengitter is exposed to when operating the Discharge tube is exposed, however, are necessary for the mechanical stability of the mesh not absolutely authoritative. The mesh must also have extremely high temperatures during manufacture can endure. So it is B. from the German patent 10 51 991 known in the operating ss temperature occurring thermal electron emission of a grid to reduce by the fact that the grid wires be coated with a thin layer of zirconium carbide, which in turn is coated with a thin layer of platinum or Gold layer is coated. The zirconium carbide is in mi an oven and under a neutral atmosphere attached to the Giüerdräten by sintering at a temperature of about 2000 ° C. But it has found that in meshes of large dimensions, the mechanical strength at this high ni Temperature has decreased in such a way that the mesh is impermissible under the action of gravity is deformed.

If the mesh is built up entirely from thicker mesh wires, there is an improvement in the mechanical properties of the mesh, but this improvement is canceled out by the inadmissible increase in the mesh current as a result of the thicker mesh wires. The invention is based on the object of creating a discharge tube with one or more mesh grids of the type specified in the introduction, which ^{can withstand a temperature treatment of at least 2000 °} C. without undue deformation occurring and which enables further advantages.

To solve this problem, according to the invention, the mesh contains in addition to thin lattice wires same cross-sections some according to the pattern of the winding of the thin lattice wires in the mesh recorded thicker support wires, which are regularly distributed over the circumference of the mesh.

It should be noted that a mechanically stiffened grid from the British patent 8 38 017 is known. However, this is not the case a mesh lattice, but a lattice whose mechanical stability is made up of thick wires constructed rigid frame is obtained, around which with a low pitch the actual thin lattice wire is wound.

A mechanically stiffened grid is also known from German patent specification 1108 814. Even this is a wire-wound cylindrical grid. Some of the same thickness in this case or even thinner support wires are in the longitudinal direction of the cylindrical grid as a carrier for the grid wire arranged and other than additional turns with one that exceeds the grid wire Pitch attached to the grating, with the intention of making the grating's resonant frequency to be higher Shift frequencies.

In the discharge tube and a mesh grid according to the invention, however, the support wires are in the Mesh itself added, leaving the original pattern of winding the mesh wires not disturbed and, moreover, a particularly effective stiffening of the mesh is obtained. the Support wires contribute optimally to the stiffness of the mesh girder if both the grid wires as the support wires also make an angle of almost 45 ° with the longitudinal axis of the cylindrical mesh lock in.

Of course, the diameter in the mesh of the discharge according to the invention attached thicker support wires to obtain a certain mechanical stability selected larger are as would be required if all the wires of the mesh are to have the same mechanical stability obtained would have a larger diameter. Nevertheless, it turns out that the Discharge tube with a mesh according to the invention, the electrical properties of the discharge tube are not or almost not influenced, while the mesh has a sufficient mechanical Maintains stability up to a temperature of about 2000 ° C.

In particular, the training according to the invention in mesh grids with an Axiaiiänge νυη more than 200 mm applied. Depending on the length and the diameter of the mesh, a value of The diameter of the thick support wires is chosen, which is one and a half to three times the diameter of the

thin grid wires and a number of thick support wires that are five to fifteen times smaller than the number of thin lattice wires.

The electric discharge tube with a mesh screen according to the invention is hereinafter referred to in a Embodiment explained in more detail with reference to the drawing, in which only the mesh of the Discharge tube is shown.

The mesh grid contains 46 left-handed helically wound grid wires t and 46 right-handed helically wound grid wires 2. The length of the mesh grid is 276 mm, the Diameter 83 mm and the length of the passage from

Molybdenum existing grid wires 264 mm. At the points where the grid wires are, as in 3, cross, they are welded together.

To improve the mechanical stability, the mesh contains the grid wires with a Diameter of 0.325 mm, some support wires 4 also made of molybdenum with a diameter of 0.6 mm. In the present example, the arrangement of these thick support wires is such that between two consecutive thick support wires 4 wound in the same direction alternately 10 or 11 thin lattice wires 1 or 2 lie.

1 sheet of drawings

Claims (3)

Patent claims: 1. An electric discharge tube containing one or more cylindrical meshes made of left-hand and right-hand helically wound, on both sides along the same Thin lattice wires that run on a cylindrical surface and are welded to one another at the intersections are made up of molybdenum or another refractory metal, characterized in that that the mesh next to the thin mesh wires (1, 2) of the same cross-sections also some according to the pattern of the winding of the thin girder wires (1, 2) in the mesh recorded thicker support wires (4), which regularly over the circumference of the mesh are distributed. 2. Electrical discharge tube according to claim 1, characterized in that both the thin Lattice wires (1, 2) as well as the thicker support wires (4) have an angle of almost 45 ° with the longitudinal axis of the mesh. 3. Electrical discharge tube according to claim 1 or 2, characterized in that the diameter of the thicker support wires (4) one and a half to three times the diameter of the thin grid wires (1, 2) and the number of thicker support wires (4) five to fifteen times smaller than that Number of thin grid wires (1,2) is. JO