DE961002C - Electric grinding variometer, especially for short and ultra-short waves - Google Patents

Description

Electric grinding variometer, especially for short and ultra-short ones Shafts There are electrical grinding variometers with a relatively thick-wired one stationary winding known, on which a, for example, a pivotable Slides along the sliding contact arranged on the arm. Variometers are also known where the cylindrical or conical carrier for the winding against longitudinal displacement is secured rotatable about an axis. The pick-up contacts slide when the Winding support according to the pitch of the winding in guides that are in Extend longitudinally parallel to the winding. Both known embodiments has in common that the pick-up contacts sliding on the variometer winding are movable and therefore require flexible connecting cables.

The grinding variometer according to the invention, which is particularly suitable for short and ultrashort waves is, in contrast, characterized by that for the helical variometer winding and for a coaxial to it electrically conductive cylinder, which is connected to one end of the winding, each a. Fixed resilient sliding contact is provided, and that to change the Inductance the winding and the grinding cylinder rotated and at the same time accordingly the pitch of the winding can be shifted in the axial direction. By eliminating it, more agile Connecting cables the new grinding variometer has a precisely defined, always recurring inductance value, which means that it can be used in oscillation circles in the field of ultra-short waves. Compared to the widely used Immersion core variometers, the working stroke of which is only a few centimeters, is the setting accuracy and reproducibility of the electrical values in the case of the invention. Grinding variometer much better because when tuning the variometer over its range of variation its moving part rotates several times. The inductance value depends only from the angular position of this part, since only the number of between the winding located on the two sliding contacts is decisive. A minor one Displacement of the moving part in the axial direction, for example due to thermal expansion, .is therefore without influence. to the size of the inductance set in each case. This is particularly important if, according to: a further development of the inventive concept several windings including the associated grinding cylinders on a common drive axis are arranged as it is already through a variometer arrangement with movable contacts has become known.

The feed of the useful together with the grinding cylinder on one common carrier arranged rotatable winding can through the winding itself in connection with a correspondingly shaped slide spring, which at the same time can represent the current pick-up contact. If the profile of the deepened where appropriate winding wire attached to the carrier protrudes over the surface of this carrier, can the sliding on the winding end of the slide spring roughly corresponding to the Wire diameter be arched so that the wire at two approximately opposite Sides of his profile slides past this spring. Appropriate guidance of the rotatable winding support is also possible with a countersunk winding, by, for example, the two flanks of a groove receiving the winding wire serve to guide. However, it is also possible within the scope of the invention for the Carrier of winding and grinding cylinder or a thread guide for its axis to be provided, the pitch of which corresponds to that of the winding.

To increase the inductance of the variometer or to increase its dimensions to reduce in size, a core made of magnetizable can according to the invention for the winding Material, in particular made of ferrite, may be provided. The application of such a Kernes is known from different types of variometer arrangements. Even without a core relatively small dimensions make the new Varionieter especially for devices suitable, the components of which are squeezed together in as little space as possible must, e.g. B. for wireless transmitters and receivers in portable design. Of course the variometer according to the invention is also for radio and television receivers from Advantage, be it for tuning the pre- and oscillator circuits, for band filters or as a trimmer.

The invention and related details are based on the in the Drawing illustrated embodiment explained in more detail.

The drawing shows a longitudinal section through a variometer according to the Invention. As a carrier for the variometer winding i and for the one with one end connected grinding cylinder: 2 a cylindrical insulating body 3 is provided, those made of plastic, for example, those under the names Plexiglas or Plexigum known type can exist. The winding i lies in a helical line Groove of the carrier body. The grinding cylinder z is pushed onto the carrier 3 by a Metal cylinder shown. In its place can also be an electrically conductive layer occur, for example by spraying or electroplating the relevant Part of the carrier body is made. The insulating body 3 sits on a shaft 4th, which is rotatably mounted in bearing blocks 5 and 6. On one end of the wave q. there is a drive pulley 7, over which the shaft q. for example can be rotated by means of a cable pull.

Two stationary resilient sliding contacts 8 are used for making contact provided, one of which is on the winding wire i, the other on the conductive one Cylinder: z grinds. By rotating the shaft q. will be the number of between the two sliding contacts changed 8 effective turns, with the required Displacement of the shaft in the axial direction by its threaded one End 9 takes place, which is equipped with a corresponding nut thread in the Bearing block 6 runs.

The insulating body 3 can be provided with a recess io which for receiving a core made of magnetizable material, e.g. B. made of ferrite, is used. Appropriate shaping and material composition of this core can influence the course of the inductance as a function of the rotary movement of the varsometer. Another possibility for such an influence is that of the winding i the supporting part of the insulating body 3 has a shape deviating from the cylindrical shape, for example to give it a slightly conical shape.

Claims (2)

PATENT CLAIMS: i. Electric grinding variometer with helical Winding and an equiaxed, electrically connected to the winding end conductive, cylindrical part, especially for short and ultra-short waves, characterized in that the cylindrical part (z) has almost the same length as the winding (i) has, and for the winding (i) and the cylindrical part (Z) a stationary resilient sliding contact (8) is to proceed, and that to change of the inductance, the winding (i) and the cylindrical part (z) rotated and be shifted at the same time according to the pitch of the winding in the axial direction. 2. grinding variometer according to claim i, characterized in that for the carrier (3) of winding (i) and grinding cylinder (2) or a thread guide for its axis (4) is provided, the slope of which corresponds to that of the winding. 2. Grinding variometer according to claim i or 2, characterized in that a core for the winding (i) (ii) a magnetizable material, in particular femxite, is provided 4. grinding variometer according to one of claims i to 3, characterized by the arrangement of several windings including the associated grinding cylinders on a common drive axis. Into consideration Drawn pamphlets: German Patent Nos. z89 399, 759 378, 89o o5 o; "Very High-Frequency Techniques", 1947, pp. 33o ff.