DE1029488B - Arrangement for mutual displacement-proof fastening of system parts in an electrical discharge arrangement - Google Patents

Description

The invention relates to an arrangement for mutual displacement-proof fastening of System parts in an electrical discharge arrangement, in particular with the attachment of a Helical delay line formed on the helical support rods made of insulating material in one Traveling wave tube.

Delay lines, which are mostly designed as coils, are usually used to achieve this sufficient stability and precise alignment between dielectric rods, e.g. B. quartz or Ceramic rods, held.

It is known that the coil of a traveling wave tube by means of clamps between several dielectric To hold rods. This attachment has the disadvantage that it can withstand vibrations or impacts is sensitive.

It is also known to attach a coil in such a way in a glass tube in which you can Glass tube evacuated with simultaneous heating, whereby the glass tube is tightly wrapped around the coil and thus gives the individual turns of the helix a firm hold. This type of helical mount is associated with a considerable manufacturing effort and could therefore be in the Mass production does not claim.

It is also known to attach thin glass bars to the insulating rods used to hold the helix, to which the coil is then melted. This type of fastening has the disadvantage that several work steps are necessary, on the other hand, it is very difficult this glass bars on the entire length of a defined thickness. But this is necessary because it is the helix surrounding dielectric the \ "retardation properties the helix influences.

According to the invention it is proposed that the individual system parts be covered by one that covers the entire system To connect glass cover together.

This type of attachment has several advantages. These advantages are for example with a Helical holder of a traveling wave tube is given on the basis of the figure.

The helix 1 is first mounted between several insulating rods 2 and adjusted. The corresponding damping layers 4 were previously applied to the insulating rods. Now the entire pre-assembled system is immersed in a glaze liquid or sprayed with it and then brought into a drying room. After the glaze liquid has dried on the system, the glaze is burned in. All parts of the system are thus covered with a layer of glaze 3. This has the arrangement for mutual during a later evacuation of the tubular piston
Verdiiebungssictieren attachment

of system parts in one
electrical discharge arrangement

Applicant:

Telefunken GmbH,
Berlin NW 87, Sickingenstr. 71

Meinhard Güttier, Ulm / Danube,
has been named as the inventor

Advantage that the metal objects and the damping layers as a result of the vacuum-tight glaze coating cannot gas subsequently. In addition, a glaze layer thickness is obtained in this way, the is uniform across the system. Furthermore, every single turn of the helix is on the insulating rods melted, so that a secure spiral fastening is given.

But you can also after the glaze liquid has dried on the system after the first immersion is to partially submerge the system several times in the glaze liquid and thereby achieve that the glaze layer increases steadily over the length of the spiral. Another way that Applying the glaze layer thickness over the length of the system consists of applying the glaze liquid to make it thicker. A defined variation of the glaze layer thickness over the length of the system is often desirable because it can influence the deceleration properties of the shaft, i. H. the phase velocity of the wave of the electron beam velocity traveling on the helix can adapt, which leads to an increase in the efficiency of the entire arrangement.

Another way of fastening the helix is to first place the helix and the holding rods to provide separately with a dried raw glaze layer, then to assemble the parts together and then burn. The helix is then also fused at all points of contact with the rods, and the entire system receives the desired strengthening glaze coating.

809 50Ϊ / 339

It goes without saying that the fastening arrangement according to the invention is only based on an exemplary embodiment has been explained in more detail and that it is not limited to this embodiment.

Claims (5)

PATENTED COOK: 1. Arrangement for mutual displacement-proof fastening of system parts in an electrical discharge arrangement, in particular \ o for fastening a helix to the helix support rods made of insulating material in a traveling wave tube, characterized in that the individual system parts are connected to one another by a glaze coating covering the entire system. 2. Arrangement according to claim 1, characterized in that the glaze coating over the has a uniform thickness over the entire length of the system. 3. Arrangement according to claim 1, characterized in that the thickness of the glaze coating along the length of the system, especially towards the electron-accepting end of the system, increases. 4. Arrangement according to claim 1 to 3, characterized in that the damping pads attached to the individual system parts under the Glaze coating are attached. 5. A method for producing an arrangement according to claims 1 to 4, characterized in that that the system is first assembled and adjusted, that then the assembled system in a glaze liquid is immersed or sprayed with it and that then adheres to the system Glaze liquid is dried and fired. 1 sheet of drawings © 809 509/339 4.58