DE1130925B - Rotating plate capacitor - Google Patents

Description

Rotating plate capacitor The invention relates to a rotating plate capacitor with gaseous dielectric and a rotor, its on a common shaft spaced apart plates cooperate with a one-piece stator. Such capacitors are known and are particularly useful as trimmer capacitors the smallest dimensions, where air is used as the dielectric.

For the manufacture of relatively large rotating plate capacitors, it is known to manufacture the one-piece stator in that one of a semi-cylindrical Body goes out, from which the plates are carved out by milling slots will. It is also known to use a set for milling slots in the same way of several milling disks fixed on a common shaft at a mutual distance to use. In this way you already have both the rotor and the stator Milled from the solid from profile bars, with a very high level of accuracy the mutual position of the plates is obtained.

It has been shown in practice that there are difficulties with rotating plate capacitors of very small dimensions, on the one hand, to hold the rotor and stator securely in a predetermined mutual position and, on the other hand, to attach the arrangement as a whole to a support part of a device in a space-saving manner. Various proposals have become known for solving these difficulties. In the majority of these proposals, a special housing or frame is provided in which the stator and rotor are individually insulated and which in turn can be attached to a support element of a device. With this type of arrangement, the overall dimensions of the rotating plate capacitor are almost twice that of the assembled rotor and stator. However, a rotating plate capacitor with two base plates which are used for holding and which extend parallel to the capacitor plates is also known. Therefore, holding pens are seen pros who are just like the axis of rotation of the rotor supported in the support plates. The retaining pins go through eyes attached to the stator and protruding to the side. In this known arrangement, too, the parts used for holding protrude noticeably beyond the outline determined by the capacitor plates.

It is the object of the invention to create a rotating plate capacitor, its transverse dimensions practically only through the actual dimensions of the actual Capacitor elements are determined and therefore a secure cohesion the parts and a reliable attachment to a support element of a Device guaranteed.

This object is achieved according to the invention in that the connecting elements in the form of metal pins within the outline of the stator on one end face of the stator are firmly attached by means of an electrically conductive connection. In addition to solving the above problem, the measures also offer the advantage of that the retaining pins can also serve as an electrical connection for the stator and thus make special connections superfluous. After all, it did proved to be particularly advantageous that the pins in the arrangement according to the invention attached anywhere within the outline of the outer plate of the stator can be. This has, especially in those cases where such a capacitor on a prefabricated, printed circuit board having in certain Spacing pre-drilled mounting holes should be attached, the advantage of that the distance between the pins corresponds to the distance given by the pre-drilled holes can be customized. With the invention, a rotating plate capacitor is created, within electronic devices with the least amount of space required can be securely attached. Fig. 1, 2 and 3 show in side view, Top view or end view of a stator part of a rotary plate capacitor in FIG Genus on which the invention is based.

4 and 5 show the associated in side view and front view Rotor.

Fig. 6 shows a front view of a constructed according to the invention Rotating plate capacitor.

Figure 7 is a partially sectioned plan view of the one end the new arrangement, whereby the rotor has been omitted for a better overview.

FIG. 8 shows a modified representation in a representation similar to that in FIG Embodiment.

The structure of the rotor and the stator of the capacitor, known as such, on which the invention is based can be seen from FIGS. 4 and 5 and FIGS. 1 to 3, respectively.

The one-piece slotted stator electrode according to Fig. 1 to 3 show electrode plates produced by milling a rod material 35 with a semi-cylindrical recess 9 for the passage of the rotor hub 40. The plates are held together by two continuous webs 14, which on one End at 37 protruding slightly to some distance between the last stator plate and the base plate 67 to be maintained. Correspondingly, the rotor points out of the Solid machined electrode plates 59, which are supported by a continuous hub 46 are held together. The hub is rotatably mounted in the base plate 67 and with an actuating element (not shown) for rotating the capacitor plates Mistake.

In the arrangement according to FIGS. 6 and 7, the bottom electrode plate 35 two small threaded pins 65 and 66, e.g. B. by welding attached. The insulating Base plate 67, which can consist of a ceramic material, has two two small holes adjacent to each other, inside, as indicated at 68, are coated with silver. The threaded pins 65 and 66 are in these holes in the Ways of soft soldering established, the solder 69 being a connection between the threaded pins and the silver plating 68 produces. Then the threaded pins are attached to the free ends electrical leads 70 and 71 fastened with the aid of nuts 72 and 73.

In the modified embodiment according to FIG. 8, a U-shaped Wire clip 75 by brazing or welding to the lowermost electrode plate 35 is attached, and two metal bushings 76 and 77 are inserted into the holes in the base plate 67 used. The ends of the legs of the wire clip 75 are passed through these holes passed through and at the outer ends with the electrical leads 78 and 79 riveted.

The rigidity of the massive, one-piece stator electrode assembly enables the unit to be arranged in close proximity to the edge of the base plate, 6 resulting in a maximum utilization of the cross-sectional dimensions.

Claims (5)

PATENT CLAIMS: 1. Rotating plate capacitor with gaseous dielectric with a rotor which has a plurality of capacitor plates arranged at a mutual distance on a common shaft, and a one-piece stator, the individual capacitor plates of which are formed by cuts in a rod-shaped material and are fixed along part of their outline are connected to one another, as well as a base plate made of insulating material, which extends parallel to the capacitor plates and on which the stator is held by means of two or more connecting elements firmly connected to the stator, which extend parallel to the rotor axis and can be fastened in corresponding openings in the base plate, characterized in that the connecting elements (65, 66 or 75) are in the form of metal pins within the outline of the stator. (14, 35) are firmly attached to an end face (35) of the stator by means of an electrically conductive connection. 2. Rotating plate capacitor according to claim 1, characterized in that the base plate (67) is essentially has a square shape and its lateral dimensions are approximately the dimensions of the Capacitor plates (35, 59) correspond. 3. Rotating plate capacitor according to claim 1 or 2, characterized in that the base plate (67) at the same time for free-flying Storage of the rotor shaft (46) is used. 4. rotating plate capacitor according to claim 1 to 3, characterized in that the pins of the two legs of a U-shaped Bracket (75) are formed, the middle part of which is fixed to the end face (35) of the stator is attached. 5. Rotary plate capacitor according to claim 1 to 4, characterized in that that in the opening of the base plate eyelets (76, 77) are inserted into which the pins (75) with a tight fit. Publications considered: German Patent Specifications No. 695 482, 748 671; Austrian Patent No. 55,329; Swiss patents No. 193749, 231350; French Patent No. 1109 253; British patents No. 469 915, 480 200, 689 998; U.S. Patent Nos. 2,361,961, 2,714,184, 2,766 511, 2 771662.