DE733084C - Changeable capacitor with ceramic material as dielectric - Google Patents

Description

Variable capacitor with ceramic material as dielectric There are known variable capacitors with ceramic material as a dielectric, in which the documents äuf the outer surfaces of ceramic ground on top of each other Plates are attached so that there is only ceramic between the assignments Material is located. Difficulties with these capacitors are the rotatable ones Storage of the ceramic molded bodies carrying the coverings, namely, because the axes of the bearings are exactly perpendicular to the plane of the rubbing ones Must stand. If you use z. B. stub axles made of ceramic material, by forming them as part of the insulating body of the capacitors, so is an exact centric guidance practically not feasible. A common axis it cannot be used for both assignments either, since it is higher when used Operating voltages can easily flash over the common axis.

The difficulties of the shaft bearing can be circumvented that basically omitted mutual rotation of the capacitor plate surfaces and constructive arrangements meets enabling a mutual translational movement of the lining carrier, or changing the spacing of the capacitor plates. In both cases, however, significant technical disadvantages are exchanged, whereby in the second case the original advantage of the ceramic capacitor is even completely lost.

The invention therefore proposes a rotary capacitor with ceramic Material as a dielectric, in which the deposits on the outer surfaces of each other ground ceramic plates are attached, so build up that one of the Condenser halves rigid, and the other in all directions is resiliently mounted.

In the figures there are two examples. Illustrations of the arrangements according to the invention are shown. In the embodiment according to Fig. I, two ceramic facing carriers 2 and 3 of a variable capacitor are arranged on a common carrier i. The capacitor half: 2 has a stub axle 4 which is rigidly connected to the bearing block 5 . The rotatable capacitor half 3 lies with its ground-in surface 6 on the lining carrier 2 and is in turn provided with a stub shaft 7, which is elastically connected to the drive axle. 8 The resilient suspension, ung the condenser half takes place z. B. via a cross spring arrangement 9, which exerts a constant axial thrust on the lining carrier carried by it. It is driven by a cord wheel.

In a similar way, the rotatable lining carrier can also be in a self-aligning ball bearing be hung as shown in Fig. 2, so that the in all directions can replace swivel spring clutch by a purely axial suspension.

In this figure are the same as in Fig. I provided with two metal capacitor plates and plate-shaped Kerainikkörper io ii moun- ted with the axle journals 12 and 13 on the bearing blocks 14 and 15. The stub axle 12 is firmly connected to its carrier, while the movable stub axle lies in a self-aligning ball bearing 16. The generation of the axial thrust force for the pressing together of the ground-in surfaces takes place via an axial suspension 17. The axis is driven via a worm drive 18 (which is attached to the bearing block 15 'and acts on the gear wheel ig.

In a similar way, the fixed occupancy can fluctuate and the rotatable rigidly.

Claims (2)

PATENT CLAIMS: i. Variable capacitor with kerainic material as dielectric, in which the coverings are attached to the outer surfaces of ceramic plates ground on top of one another, characterized in that one of the capacitor halves is rigid and the other is flexible in all directions. 2. Variable capacitor according to claim i, characterized in that the storage is carried out by stub shafts made of ceramic material which form part of the insulating bodies of the capacitor assignments. 3. Variable capacitor according to claim i and 2, characterized in that the flexible mounting in all directions of one capacitor half is carried out by a self-aligning ball bearing with axial suspension. .4. A variable capacitor according to claim I and 2, characterized -eleiinze'ichnet that the resilient in all directions storage of 'half of a capacitor through a cross spring clutch he follows.