DE844182C - Tuning element for VHF operation - Google Patents

Description

Tuning element for VHF operation In VHF levels, such as such. B. is indicated in Fig. i, is used to set the operating frequency u. a. Tuning elements adjustable like a trombone. One made of two by insulating material separate legs with short-circuit bridge existing tuning element I is in i with a coupling capacitor C in the grid anode circuit and can by means of the in the direction of the arrow movable short-circuit clip set to the transmission frequency will. The load reduction from this circle takes place via a to the assignments of the Coupling capacitor C connected antenna cable .9.

The use of such trumpet-like adjustable tuning elements is associated with difficulties, since the necessary holding and adjusting devices, in particular the latter is complicated because of the high level of setting accuracy that has to be maintained are. Finally, the special shape also requires space, which is often not wanted. It is our task to achieve improvements in this regard of the present invention. It is achieved in that a tuning element coaxial conductor of any cross-sectional shape is used, which is circular arc around a rotatable shaft with a short-circuit between the inner and outer conductors Arranged grinder and surrounded by a shielding pot so that its walls one electrode and the surface of the outer conductor the other electrode of a capacitor form.

A tuning element designed according to the invention is shown in FIGS. 2 and 3, for example, shown. Fig. 2 shows the individual Parts only in . their 'outlines- in perspective arrangement, namely in dashed lines Lines here a rectangular outer conductor i and dots the also rectangular, inner conductor held in the outer conductor in a known manner, not shown here 2 of the coaxial tuning element reproduced. Both conductors are arcuate Arranged around the rotatable axis 3, the grinder 4 of which has a short circuit K between the inner surface of the outer conductor i and the inner conductor 2 produces. That so educated Tuning element is housed in the interior of a shielding pot 5 and is in this held by spacers not shown here. The walls of the shielding pot 5 represent one electrode and the surface of the outer conductor i the other electrode of a capacitor. This is in a compact structural design with the tuning element another capacity is combined, the value of which is determined by the adjustment of the grinder not changed for setting the operating frequency. This capacity can for example as a coupling capacitor C according to FIG. i use. Should the capacity of this Coupling capacitor may also be variable for some reason, so it may in the shielding pot there is also a disk adjustable in terms of its distance from the outer conductor i 6 are provided. Of course, this function can also be performed from one of the walls of the shielding pot. For better distribution of the static capacity the ring-shaped part of the outer conductor i can still be through a disk or on any other type to be covered.

In order to have a cooling, z. B. by air, To be able to make, the shielding pot 5 can be provided with perforations. Of course, other coolants can also be used.

3 shows the arrangement just explained again in section. In the outer conductor i is using known spacing elements, not shown here the inner conductor 2 housed. The rotatable axis 3 carries the grinder 4, which through an opening in the outer conductor i on its inner surface and on the surface of the inner conductor 2 grinds and an adjustable short circuit between produces both surfaces. This structure is then used in the shielding pot 5 here also not shown spacer arranged. The possibly Required additional disk 6 can be adjusted from the bottom of the shielding pot 5.

The arrangement described above can now be used instead of the tuning element I in the VHF stage shown schematically in Fig. I are switched on so that the current from the anode of the tube to the inner conductor 2, from there via the one from the grinder 4 produced short circuit runs to the inside of the outer conductor i and then over the total area of the outer conductor i its way to the surface of the same takes which, according to the special training, an electrode of the coupling capacitor C represents the other electrode of which is formed by the walls of the shielding pot 5 will. These walls are then connected to ground, and indeed they can have high frequencies to ground or low resistance to: hate to be laid.

Claims (4)

PATENT CLAIMS: i. Tuning element for VHF operation, characterized in that a coaxial conductor of any cross-sectional shape serves as the tuning element, which is arranged in the shape of a circular arc around a rotatable axis with a wiper producing a short circuit between the inner and outer conductors and is surrounded by a shielding pot in such a way that its \ Väiide one electrode and the surface of the outer conductor form the other electrode of a capacitor. 2. Voting element according to claim i, characterized in that in the interior of the shielding pot one with Galvanically connected to it, adjustable with respect to the surface of the outer conductor Plate for changing the capacitor capacity is provided. 3. Tuning element after Claim i, characterized in that the shielding pot has a high frequency or a low resistance against ground. 4. tuning element according to claim i, characterized in that the capacitor serves as a coupling capacitor.