DE713539C - Changeable electrical capacitor - Google Patents

Description

Changeable electrical capacitor For telecommunications equipment, which are used to receive high-frequency waves, is mainly used for setting on the frequency to be received: a variable electrical capacitor is used, in which a so-called rotor plate package is normally rotatable in a stator plate package is stored. The setting is made at a free end of the rotor axis outside the so-called tub. To enable precise adjustment, the adjustment force engages not directly on the rotor axis, but on an @ on the chassis or 4-l. stored Shaft and is transmitted via a transmission (friction drive, rope drive, etc.) to the Transfer rotor shaft.

It now follows that on the rotor shaft itself not only one rotating force, but also an essentially radial force acting on the shaft Direction acting force attacks, which tends to bend the rotor shaft. In most cases the 'Rotorwell @ e is strong enough to resist this force to counter this, but then the bearings of the rotor shaft in the tub are stressed or the tub, albeit to a lesser extent, twisted. But all of this leads to one Movement of the opposite polarity n plate packs against each other and shows a change in capacitance, which requires readjustment of the capacitor when it is installed.

This deficiency, which causes significant loss of time and costs, can be weakened by being as close as possible to the point of application of the radial acting force provides a bearing supporting the axle, as in some embodiments has already become known. Appropriately, this support bearing is independent from the capacitor, on the mounting plate, the chassis or the like. Nevertheless is through it not yet given a complete solution to the problem, since it is very difficult and cumbersome to arrange the support bearing so that it is accurate with the capacitor attached to the base plate and the one on the Effective radial axis KYäftQ-; absorbs without the capacitor verr wounds will.

The invention now relates to a variable electrical capacitor, , at one end of the rotor axis, at the one next to the one required for adjustment rotating force engages a force acting essentially in a radial direction, a bearing supporting the axis against the action of the radial force is provided is, in the gäß the invention these disadvantages are avoided in that the Condenser, fixed at two points on the base in such a way that that @ he is able to yield to the radial force, and that the support bearing the possibility of movement of the capacitor and forms the third bearing point. The two have a chance to move The condenser mounting points are either ziv, -i tips or two cutting edges or are formed by means of rubber buffers. -To complete relief To achieve the condenser from the radial force, the support bearing must must be attached exactly in the direction of this force, which is what drives the capacitor by means of rope drive z. B. is possible in that a cranked pulley It is used while the support bearing is in the plane of the rope groove on the rotor axis attacks.

In the drawing, embodiment c of the invention are shown.

Fig. I shows an encapsulated variable capacitor a, which is mounted on the chassis b of a device. The capacitor n is changed by turning the adjusting knob c, which sets the rotor axis g in rotation via the cable drive d by means of the two cable pulleys e, f which act simultaneously with a transmission. Since the cable pull d must be under a certain tension, there is a force acting on the end of the rotor axis essentially in the radial direction, which is intended to be indicated by the arrow. In order to prevent tension in the capacitor system, the capacitor is only movably attached at two points i on the base in such a way that the capacitor is able to follow the radial force acting on the rotor axis. The support bearing lt, which for reasons of convenience is not attached to the capacitor, but to the chassis b by means of the two screws i, h , then limits this possibility of movement and represents the third attachment point of the capacitor.

In Fis. 2 is the Koiiensator shown in Fig. I from the rear Seen from the side; e with the two on the chassis b 'tresehenen bypassable I_agerstAlen once with in referred to as top warehouse and with ii referred to as Blade bearings are shown. A practically inexpensive solution for the moving Fig. 3 shows storage. Here, the capacitor warmth is designated with a and with o the chassis plate. The condensation: ir a is fastened by the screw, ii-elchc through Rubber washers q ensure that the capacitor a can move.

A complete relief of the capacitor from the radial forces can then be achieved. when, as shown in Fig. 4, the support bearing r in the direction the radial force on the Rotorachseg, attacks. The force that is in the plane of the The groove of the pulley s acts on the axle. is immediately followed by the one in the on the same level as the support provided.

It is always shown in the examples shown that the radial force acts in the vertical direction on the rotor axis. However, it is straightforward conceivable that the cable z. B. also acts horizontally or in another direction. In this case, the support bearing must also be attached in this direction. as well as. the mobility of the entire condenser at the two attachment points must be provided accordingly on your chassis. Such a case is shown in Fig. 5 is shown schematically, in which a plan view of a triple capacitor is shown.

The cable pull t acts to the left in this case; the support bearing is u For this reason attached in the same direction. The same are the bearing points v for the condenser mounted on the chassis so that the condenser of the rope force able to follow first, d. H. Provided on the side of the condenser pan.

The same difficulties outlined above also arise when a rotary capacitor is actuated by means of a friction drive or the like. so that there, too, the fastening of the capacitor according to the invention is advantageous is.

Claims (5)

PATENT CLAIMS: i. Changeable electrical capacitor on whose a rotor axis end. on the rotating one next to the one required for setting Force attacks a force acting essentially in a radial direction, an the Aclisc against the effect of the radial force supporting bearing is provided, characterized in that the capacitor at two points on the Base is movably attached in such a way that it yields to the radial force able and that the support bearing limits the movement of the capacitor and forms the third bearing point. 2. Capacitor according to claim i, characterized in that that the capacitor is movably mounted on two supports or two cutting edges. 3. Capacitor according to claim r, characterized in that the capacitor means Rubber buffer is movably attached. q .. Capacitor according to claims i to 3, characterized characterized in that the support bearing is arranged precisely in the direction of the radial force is. 5. Capacitor according to claim q., Characterized in that a cranked The pulley is placed on the end of the rotor axis and the support bearing is in the plane the rope groove supports the axle.