DE1073105B - Air rotating plate capacitor - Google Patents

Description

Air turntable coridensetor at Schwingkreisanczzdniingen in -der HF technology; In particular in UHF technology, inductances often have to be unchangeable be used. With a large frequency range and a given calibration curve, Now no longer carry out the adjustment with trimmer capacitors alone. One serves therefore, as is known, the air gap change by axial displacement of the Rotors or S.tators of the rotary capacitor.

However, these previously known arrangements had the disadvantage that a change in the rotor torque occurred due to the axial displacement of the rotor and that further the rotor axis, at least on one side, by the drive element in their axial position was shifted and thereby an unpleasant change in capacitance could be caused.

The ones caused by a cable pull or a push rod and on the extension of the drive axis, the rotor axis, unidirectional traction or Pressure forces have an unfavorable effect on the plate packs of the Rotoi # s and gave rise to it to microphonic phenomena.

Attempts have recently been made to counteract these old evils by by grasping the rotor axis on both sides in a ring-ball bearing and this in turn in adjustable bearing shells equipped with a fine thread.

This created a much cheaper rotor axle bearing but the constant torque could only be achieved by laboriously adjusting the Bearing shells are achieved.

Also known are air rotating plate capacitors, the rotor axis of which both axially adjustable by a screwing device and mounted in balls is, which are supported by means of spring membranes on the housing. With such a Air rotating plate capacitors are to avoid the disadvantages indicated above according to the invention, the spring diaphragms in a known manner also on the housing directly or indirectly with balls or ball-like bulges.

The drawing shows an embodiment of the rotary plate condenser shown according to the invention.

The preferably ceramic rotor axis A, which is held in a known design, is supported on both sides by a steel ball G, L and is mounted in a spring membrane E at one end of the axis. This spring membrane E is in turn centered and supported by means of three spherical bulges F in the housing wall D of the rotary capacitor. At the other end of the axis, the rotor axis A is centered by means of the steel ball L and is mounted in the adjustable screw K equipped with a fine thread. At the same end of the axis, the rotor axis A carries a further spring membrane M provided with three spherical lobes O, which presses on the ball bearing flange P and by engaging the diaphragm lobes O in three grooves N which are offset at 120 ° and which run radially on the flange, contribute to driving the rotor Rotation of the drive shaft H accomplished.

The spring diaphragms E and, which are seated at both ends of the rotor axis A 1V1 keep the rotor axis always under constant pressure.

If the rotor is axially displaced by readjusting the screw K, so the spring membrane E is tightened more, the spring membrane M, however, by the same Dimension relieved so that the torque exerted on the rotor axis A remains constant.

The ball bearing T arranged in the housing wall D1 with the hollow shaft The drive shaft H, which is designed with a flange, has a protruding rotor shaft compared to a rotor shaft Axle stub is a considerable advantage, as that by the drive mechanism nism, e.g. B. a cable or a push rod on the drive axis H on one side Acting tensile or compressive forces do not have a disadvantageous effect on the rotor axis A. can.

Claims (1)

PATENT CLAIMS: 1. Air rotating plate capacitor, the rotor axis of which is both axially adjustable by a screw device and is mounted in balls which are supported on the housing by means of spring membranes, characterized in that the spring membranes (E, M) are also attached to the housing (D , Dl) bear directly or indirectly with balls or ball-like bulges (F, O). 2. Capacitor according to claim 1, characterized in that the rotor axis (A) is equipped with a special drive axis (H) lying in its extension. 3. Capacitor according to claim 2, characterized in that one end of the rotor axis (A) is mounted by means of a ball (G) in a spring membrane (E), which in turn rests firmly on the housing (D) by means of ball-like bulges (F), while the other end of the axle is also mounted by means of a ball (L) in a front recess of a screw (K), which is rotatable and thus longitudinally displaceable in the hollow drive axle (H). 4. Capacitor according to Claim 2 and 3, characterized in that the end of the drive axle (H) facing the rotor plate set (C) is designed as a flange (P) which, in radial grooves (N), has the spherical bulges (0) of a spring membrane ( M) which is attached to the end of the rotor axis (A) facing it and causes it to be entrained. Documents considered: Swiss Patent No. 222 053; French Patent Nos. 797 710, 907 735, 957 625; British Patent Nos. 326 572, 357 828, 445 082; U.S. Patent Nos. 1,842,507, 2,046,994, 2,253,978, 2,282,215, 2,473,705.,