DE1043509B - Electrical multiple capacitor variable capacitance - Google Patents

Description

Multiple capacitance electric capacitor In modern day Carrier current technology wins the alignment of lines with carrier current channels very high frequency are occupied, increasing importance. With the increasing frequency of Carriers are the accuracy of this comparison and its temporal immutability Ever higher demands were made, which led to the fact that the adjustment was made necessary switching means, mostly capacitors of very small capacitance values, to easily accessible place and in an easily adjustable design collected for a large Number of carrier flow channels arranged. There are a large number for this purpose so-called compensation fields proposed or become known, these are switch fields, to which the lines to be matched against each other are routed and in which the Adjustment means are assembled. Usually they consist of a system of intersecting Lines, which at suitable points via the mentioned adjustment means, so the Capacitors, are coupled together. As the modern lines for carrier current operation containing a large number of message channels are in such a switch field to accommodate a large number of capacitors, and it must be proportionate Trade high-quality capacitors, which above all can be easily readjusted at any time and result in reproducible, constant capacitance values.

There are known variable compensation capacitors in which the Fixed electrode applied to a porcelain support through a metal coating while the movable electrode provided with a ball joint at one end slides inside the porcelain tube as a resilient piston. It is the same known to arrange the fixed electrode inside a tubular insulating material, to be covered with a dielectric and in this insulating sleeve forming the dielectric to slide a resilient piston as a movable electrode. In Another known design is the variable capacitor with his movable electrode encased in a ceramic insulator, which is tightly in the cavity surrounded by the fixed occupancy is fitted so that when moving out the metal covering from the counter electrode, the space that would otherwise be freed up is now filled by the solid dielectric. It is also known the movable electrode of an adjustable electrical capacitor on a ceramic one Apply body and cover it with a layer of melt glaze, which acts as a dielectric is used and ground in the fixed electrode without any air gap is. In another known construction .. a capacitor are on an im Inside with threaded synthetic resin tubes two metal rings as a fixed electrode applied, while the movable electrode, designed as a screw core, itself can be adjusted inside the synthetic resin tube. Furthermore, there are also multiple adjustment capacitors known to consist of two fixed cylindrical electrodes and two mechanical are coupled to one another and displaceably mounted in these electrodes. The movable electrodes are connected via a flexible cable. At a Another embodiment is a slotted around a solid cylindrical electrode outer cylindrical electrode placed, with the change in capacitance due to clamping this outer electrode takes place. Furthermore, a variable capacitor is known, in which one electrode is made up of a completely cylindrical one half of its length Shell and consists of a partially cylindrical shell piece. To the whole cylindrical Part of it is a slotted cylinder that does not touch it as a counter electrode and around the partial cylinder a second counter-electrode that only covers half of it placed. The change in capacitance can thus both by compressing the slotted Cylinder as well as by turning the inner electrode: Furthermore, is also known, in a differential capacitor on an insulating tube ring-shaped fixed Put on electrodes and the piston-shaped movable electrode inside the Assign the insulating tube to ane.

The invention relates to an electrical multiple capacitor changeable capacity, consisting of a solid, tubular, more than two insulating housing carrying fixed electrodes, one inside the insulating housing sliding, connectionless, face-driven and fixed by the fixed Electrodes separated by a solid dielectric.

In such a known capacitor; in particular for comparison can be used by telecommunication lines, are power supply lines according to the invention to the fixed electrodes inside the insulating housing up to its end faces.

It can be useful to lead out all electrode leads to be carried out on one face. But you can also add more, from the front Provide lines running in the front end of the housing body, so that the possibility the connection of one or more fixed electrodes on each face. The removal is expedient for reasons of increasing the creep stress with the help of eyes or noses placed on the forehead, one preferred Execution of the capacitor according to the invention on the all electrode leads exhibiting end face still has a further nose designed as a soldering support point, so that between this and a nose containing the lead to an electrode a resistor or the like can be soldered in.

The movement of the unconnected and the connected, fixed Electrodes opposite movable electrode is expediently also carried out by Means provided on one of the end faces, for example a screw spindle or the like. It is advantageous to train these means so that they can only be used with the help a special tool, e.g. B. a screwdriver, and not already easy can be operated by hand to prevent accidental adjustment as much as possible is excluded. These adjustment means can also be designed so that they at the same time enable reading of the position of the movable electrode, either by the z. B. running as a screw spindle adjustment one on one Scale along sliding, preferably equipped with an edge or cutting edge Has federal government or that the protruding shaft of the adjusting device several arranged at certain distances from one another and against the flat boundary surface an eye containing the remaining parts of the device contains readable grooves.

In the case of the multiple capacitor, the change in capacitance takes place according to FIG Invention in that the movable and electrically non-connected electrode more or less compared to the fixed and electrically connected electrodes will.

The base area of the housing of the capacitors can expediently be square are executed. You can then leave one next to the other, a square Arrange field covering, space-saving and clear, so that a certain capacitor to find each other easily according to the coordinate point it has taken to a certain extent and can be adjusted. A larger number of such capacitors is used in another Embodiment of the invention expediently on a metallic base plate, which a large number of bores for the passage of those containing the electrode leads Has lugs on one end face of the housing body. Best done too the attachment to the base plate from the side on which the through the base protruding noses made the connections to the lines to be adjusted will. Then the other end faces of the capacitors are located with the adjustment devices provided, on one level next to each other. They can be done like this, for example by laterally attached grooves that inset label plates between them can be on which the lines to compensate for the capacitor in question is intended, are noted.

In the drawing, some embodiments of the capacitor are shown in FIG of the invention shown as exemplary embodiments, namely Fig. 1 shows the basic mechanical and electrical construction, Fig. 2 shows the longitudinal section of a capacitor according to the invention, FIG. 3 in side view and FIG. 4 in plan view, a reading device for the position of the movable electrode, FIG. 5 shows a partial view of a further reading device and FIG. 6 shows a view from below and FIG. 7 shows a schematic side view of the arrangement a larger number of such capacitors in a switch panel for decoupling of cable lines.

In Fig. 1, 1 denotes a tube made of polystyrene or similar insulating material high dielectric quality, onto which the fixed electrodes 2, 3 and 4 ring-shaped from the outside are upset. The insulating tube and electrodes are made of one material in the housing 5 high insulation capacity. The movable slide slides inside the tube 1 Electrode 6 is piston-shaped and is rotated in a nut 7 with the aid of the screw spindle 8 moves. The leads 9, 10 and 11 to the fixed electrodes 2, 3 and 4 are all led out on the upper front side. By moving the bulb-shaped electrode 6 in the direction of the capacitor face provided with the power supply lines 9, 10 and 11 the capacitance between electrodes 2 and 3 and between the electrodes is increased 4 and 3 reduced in size; by moving the electrode 6 in the opposite direction on the other hand, the capacitance between the electrodes 4 and 3 is increased and between the electrodes 2 and 3 are reduced in size.

In the arrangement according to FIG. 2, 15 is again that of one material higher Insulation capability existing housing, which has a bore 16, on the inside the three fixed electrodes 17, 18 and 19 are attached. The movable one, again The electrode 20, which is designed in the form of a bulb, is of an insulating type in a known manner Surrounding jacket 21, which is made of a material of high dielectric quality, for. B. polystyrene, consists. The piston is moved by means of the spindle 22. The power supply for the electrodes 17, 18 and 19 are located opposite one another on the drive side Front protruding noses, of which the nose 23 for the supply to the electrode 19 is shown. Furthermore, a special conductor 24 is shown, which is from runs through one face to the other and on the upper face in the nose25 exit. One of the electrode leads can therefore be found on the upper end face connect to this conductor 24 so that their connection on the lower face of the Capacitor on the flag 26 can be done. The mother is still in the housing 15 27 is provided for fastening the capacitor on a base plate 28.

3 to 5 show the end of a capacitor according to the invention, on which the adjusting device for the movable electrode is provided, namely Fig. 3 shows in side view and Fig. 4 in plan view an arrangement in which the screw spindle 31 itself from the Housing 32 of the capacitor protrudes and is provided with a collar 33. This collar has a cutting edge that brushes past marks 34 and can be read against them. These marks are attached to a bowl-shaped extension 35 which is seated on the end face of the housing 32. 36 and 37 are two soldering lugs for connecting fixed electrodes of the capacitor located in the capacitor housing 32. According to FIG. 5, the housing 38 carries on the end face a conical extension 40 provided with a flat end face 39, in which the device for adjusting the movable electrode is arranged. A shaft 42 provided with a slot 41 for inserting a screwdriver protrudes from the flat surface 39 of the attachment 40 and carries various groove-shaped marks 43 which can be read against the end surfaces 39 of the attachment 40.

FIG. 6 shows a view from below and FIG. 7 shows a side view Section of a panel with a number of built-in capacitors according to the invention. The switch panel has a metal plate 47 as a base plate which the capacitors are fastened with the aid of screws 48. Through holes in the metal plate 47 protrude the noses 49 enveloping the electrodes, 50 and 51 out of the underside of the base plate 47, where the out of these lugs emerging terminal lugs with the corresponding wires twisted in a four-wire form Cable lines 52 or with the perpendicular to them, to other wires such Lines connected to rails 53 are connected. The other end of the capacitors each carries an approach 54, from which the operating shaft 55 for the adjustable Electrode protrudes. Laterally in the lugs 54 grooves 56 are cut, in which are inserted from the side of the label 57.

Claims (15)

PATENT CLAIMS: 1. Multiple electrical capacitor changeable Capacity, especially for balancing telecommunication lines, consisting of one solid, tubular insulating housing carrying more than two fixed electrodes as well as one in the interior of the insulating housing sliding, connectionless, end face driven and by the stationary electrodes through a solid dielectric separate electrode, characterized in that power supply lines (9, 10, 11, 24, 44) to the fixed electrodes (2, 3, 4, 17, 18, 19) inside the insulating housing (5, 15, 23, 25) up to its end faces. 2. Capacitor according to claim 1, characterized in that the leads (9, 10, 11) to all electrodes (2; 3, 4) are led out on an end face (Fig. 1). 3. Capacitor after Claim 1, characterized in that from end face to end face in the insulating housing additional lines (24) run, which allow the optional connection of fixed electrodes at each end face (Fig. 2). 4. Capacitor according to claim 1, characterized characterized in that the leads to the in the path of the movable electrode (6,20) external fixed electrodes (2, 4, 17, 19) after the one end face to which central fixed electrode (3, 18) are led out to the other end face. 5. Capacitor according to claim 1 to 4, characterized in that from the end faces Lugs (23, 25) emerge, which the lead out electrode connections (24, 44) included (Fig. 2). 6. Capacitor according to claim 5, characterized in that that at least one additional nose on one of the end faces for attaching a additional soldering post is provided. 7. Capacitor according to claim 1, characterized characterized in that the adjusting device (8, 22, 31, 42) of the movable electrode (6, 20) is equipped with means for displaying their status (Fig. 3 and 5). B. Capacitor according to Claim 7, characterized in that the screw is designed as a screw Adjusting device (31) preferably equipped with an edge or cutting edge Has collar (33) which slides along a scale (34) (Fig. 3). 9. Capacitor according to claim 7, characterized in that the screw shaft (42) in certain Distances with grooves (43) is provided (Fig. 5). 10. The capacitor of claim 1 to 9, characterized in that the insulating housing (32) is a square, in particular has a square base (Fig. 4). 11. Capacitor according to claim 10, characterized characterized in that the leads (36, 37) to the electrodes in the corners of the Insulating housing (32) are performed (Fig. 4). 12. Capacitor according to claim 1 to 11, characterized in that the adjusting device of the movable electrode on one, the lead out of the electrode leads and the fastening means are arranged on the other base of the insulating housing (Fig. 7). 13. Capacitor according to claim 12, characterized in that the lead out of the electrode leads and the fastening means are arranged such that the preferably in nose-like Projections (49, 50, 51) of the base area embedded electrode leads through Through the holes in the mounting plate (47) on the side of this plate, from which the fastening of the capacitor lying on the other side of the plate is made (Figs. 6 and 7). 14. Capacitor according to claim 11 or 12, characterized characterized in that in the vicinity preferably the one provided with the adjusting device Capacitive grooves (56) for laterally inserting designations bearing Shields (57) are provided between closely spaced capacitors (Fig. 7). 15. Capacitor according to claim 1 to 14, characterized by its use in the compensation field for multi-core telecommunication lines. Documents considered: German Patent Specifications No. 602 270; 704 912, 712 813; French Patent No. 976,251; British Patent Nos. 496 315, 628 922; U.S. Patents Nos. 2,299,721 , 2,305,355, 2,324,178, 2,477,688, 2,556,453, 2,567,280, 2,589,092, 2591717.