DE561546C - Changeable electrical capacitor, in which the rotor plates or the like that are conductively connected to one another to form an electrode are moved individually one after the other and against one another - Google Patents

Description

Changeable electrical capacitor in which the becomes an electrode Conductively interconnected rotor plates or the like. Individually after and against each other As is well known, variable capacitors consist of interlocking capacitors and plate systems that can be moved in relation to one another. The capacity of these capacitors is adjusted in that a fixed plate pack against a movable one Disk package is moved. Another known design uses instead of flatter Plates, hood-shaped caps that are immersed in one another. That I with all these capacitors larger areas during the adjustment against each other shift, the change in capacitance as a function of the twist is great great. Precise adjustments can therefore only be made with additional, finer condenser devices can be achieved. This happens e.g. B. in that with flat plate capacitors an additional plate driven by a special axis as a correction capacity is used. With the immersion capacitors, corresponding parts of the hood are against the fixed hood moved.

These fine-tuning methods have the disadvantage that the adjustment cannot go on continuously over the value range of the capacitor. So it happens that the fine adjustment plate is already over its entire range of rotation is adjusted without the precise coordination of the circuits being achieved is. In such cases, the fine adjustment plate must first be turned back and adjust the main capacitor again and then repeat the fine adjustment. In contrast to these capacitors, a precise setting is therefore essential the usual setting, with the trial one and the same button to the left and is rotated to the right by a small twist angle, an operation two buttons necessary.

To get a finer adjustment on capacitors, it is known to move the plates belonging to an electrode individually and one after the other. For this purpose, a drum is attached to a hollow shaft, on which against each other offset projections are attached. Teeth of these projections engage in corresponding Teeth of the movable capacitor fins. When the axis rotates around itself the projections or their teeth themselves take the lamellae with them one after the other. the full activation of the capacitor is done by a full turn of the major axis. The fine-tuning of partial capacities is done in the above mentioned way about a guided in the first hollow axis second axis, the acts by means of gears on a toothed cap-like structure, which in turn is firmly connected to the hollow axle.

This known design has the disadvantage that the drum projections with each plate during a relatively small one Twist angle the axis are engaged so that fine adjustment is not possible. For these have to have additional plates, as already mentioned above, with complicated translations and additional axles can be attached.

The mentioned disadvantages are caused by the capacitor according to the invention avoided. With him, they are conductively connected to one another to form an electrode Plates also moved individually one after the other and against each other. The movement is according to the invention here, however, controlled by an axially displaceable device. Here you can either both electrodes against each other or one movable against a stationary one be moved.

In an advantageous embodiment of the capacitor according to the invention the device consists of a working against the moving plates, as Axle formed by a screw. At the end of a driver part, such as a friction wheel or gearwheel, attached, which is in contact with the individual plates come and take them with you. It is useful to have the axis in a position opposite the plates fixed mounting plate, e.g. B. side wall to lead. Here's just a twist of the drive button of the axis is necessary, while the axial displacement by the Snail is accomplished. As a coupling link between the axle and the plate, As already mentioned, a friction wheel can be used. This can e.g. B. consist of rubber and optionally have a helical projection on the circumference. This achieves a smaller touch area with a good casual one Feed against the plates. If you guide the coupling member of the displacement device as a gear, the plates must also have gear segments ,,will. The mounting walls between which the plate electrodes are attached, can be made of metal, with guide bushes being provided into which the axes the electrode systems and the drive device are stored. Appropriate is to make the walls of insulating material around those by metallic walls to avoid resulting additional capacity. One leads the walls, in particular those that are provided with the guidance of the spindle are thicker and cut Thread corresponding to the screw in the material.

In the starting position, all movable slats are between the fixed plates; when using z. B. a screw spindle as the axis is this unscrewed from the housing, and the gear at its end is in mesh with the teeth of the first lamella. If the screw spindle is now turned, then step two processes at the same time: once the gear wheel takes the teeth of the moving one Lamella with, on the other hand, it is screwed in the axial direction to the next lamellae. In this way the lamellas come in one after the other with the gear of the spindle Intervention. Since each time a considerable part of the circumference of the gear with the teeth the lamella is engaged and remains, so this is a fine turning movement of the lamellas, through one and the same axis, without having to do so must install special complicated devices or additional axes.

In the accompanying drawing is an example of the reproduced variable capacitor according to the invention. At Fig. I is a View of the condenser partly drawn in section, while in Fig. A the illustration of the capacitor in the second level, in the section along the line A-B of Fig. I, - # is reproduced.

Between the plate electrodes q., Which are on the axes 8 in the walls 6 are attached, the movable plates are a. The last ones are in bushings 9 attached, which are rotatable on the axis i. The socket 9 has on one part their scope a toothing. The axially displaceable device consists of the screw 5, which is guided in the wall 6 and can be rotated by the button 7 is. At the end of the worm 5 there is a wheel 3 which is inserted into the teeth of the socket 9 intervenes. By turning the knob 7, the worm moves axially; the Gear rolls on the segments of the bushing and decreases depending on their position one after the other with the individual plates. By turning the knob in the opposite direction the plates are taken along in the opposite direction of rotation.

The attachment of the capacitor to the mounting plate can in itself known way either by special screws or by additional nuts, which are attached to the axis i.

Claims (3)

PATENT CLAIMS: i. Changeable electrical capacitor in which the rotor plates or the like connected to one another in a conductive manner to form an electrode, individually are moved in and against each other, characterized in that the movement is controlled by an axially displaceable device. 2. Changeable electrical capacitor according to claim i, characterized in that the axially displaceable device made of a working against the movable plates, as There is a screw-shaped axis. 3. Changeable electrical capacitor according to claim i and 2, characterized in that the rotatable on an axis Plates of a tooth attached to the end of the axially displaceable axis or friction wheel. q .. Changeable electrical capacitor according to Claim i, characterized in that in addition to the in a manner known per se in Walls made of insulating material supporting axes of the plate systems also axially shifting device is stored in these walls, in the thread for the worm drive this device are incised.