DE1109791B - Stop device for gear drives on variable capacitors - Google Patents

Description

Stop device for gear drives on rotary capacitors The invention relates to a stop device for gear drives with seated on the drive shaft Stop finger that limits its rotational movement against a fixed stop runs up.

To limit gear drives in general, stops are manifold Kind have become known that can be simple in their execution if a rotating range is limited within a full revolution. In contrast, the range of rotation extends the drive elements over several full revolutions, so is for known stop devices considerable effort is required. So-called drag stops are used, where the stop is a rotating part of one or more rotating parts Discs is formed by a nose firmly connected to the drive axle taken, hit at the end of the rotary movement against a fixed point, z. B. against a pin firmly connected to the housing.

But is it a matter of a very specific angle of rotation or Rotation range optionally adjustable within a total rotation range of the drive elements to provide a stop, d. H. with variable capacitors z. B. their zero settings to be fixed at will, the known approaches do not provide sufficient means on hand to accomplish this with the accuracy required for gear drives. So far, certain angular deviations cannot be prevented in the setting positions, to ensure optionally adjustable start and end positions of the gear drives.

It is known for angles of rotation of exactly 360 degrees for a rotor package of the variable capacitor to be provided with a stop pin, each of which hits an arm in its end positions. This stop arm is here, depending on the strength of the pin on the rotor, in its setting position accordingly Dimensions pivotable, so that it is in each case when the rotor pin hits the one or other direction of rotation of the rotor balances the strength of the pin to the range of rotation to be fixed to exactly 360 degrees. This pivotable stop arm has only a game of the strength of what is connected to the rotor and pushing against it As a counter bearing. An optional adjustability of rotation angle ranges is not given here, and the ones required for gear drives also do not exist Corrective measures in the mutual engagement of several gears.

In the case of gear drives of rotary capacitors, however, it is known to have a Pivotability of the bearing plate for the drive axis relative to its adjustment to create the capacitor axis, the gear part sitting on the rotor axis is provided with a narrowing or groove around which the drive axle plate can be pivoted accordingly. This means that only one is optional Possibility of setting the drive axis to the rotor axis or both gears to each other achieved, but not desired adjustability of attacks according to the invention for adjusting the area of a rotor package.

With stop devices for variable capacitors, however, is further known to counteract a stop seated on the rotor axis in both directions of rotation to guide fixed stops sitting on the housing. The stop device is also known to be laid in the worm gear drive in such a way that in the end positions of the rotor movements a locking of the screw axis via a pivotable, double-sided acting lever arm takes place, with its one end, on one with the gear connected cam disc, in the end positions behind the cam of this disc swivels in, which locks the worm drive shaft with its other lever end will. An optional regulation of stops for setting any angle of rotation ranges is again not possible here. Finally, the mechanical guide is telescopic interlocking electrical pot circles known, a game when turning back and forth a threaded spindle rotatable with respect to one another by setting stop lugs to compensate for stored discs.

The invention relates to a novel stop device for Gear drives of variable capacitors with the task of the stops for the respective Limitations to make the movements in the end positions freely adjustable, d. i.e. that the Zero settings of the capacitor movements can be fixed at both ends. the Invention is characterized in that the fixed stop on one around the drive shaft and is arranged on a housing wall rotatably fastened bearing plate. Through this the bearing plate with a stop for a drive shaft can be rotated around it arranged so that with any selection of a zero setting for the variable capacitor the fixed stop on the bearing plate is fixed accordingly and that with the drive shaft movable counter-stop is set in the range of rotation. For the assembly of the drive elements this gives the additional advantage that they are firmly assembled and mutually Adjustment by changing the bearing plate in rotation to the drive axis as desired can be adjusted, which considerably simplifies the construction of gear drives, with easy adjustability and particularly fine adjustability.

The essence of the invention is based on an exemplary embodiment described in the illustration. It shows Fig. 1 with a rotary capacitor in plan view a stop device according to the invention and Fig. 2 shows a central cross-section according to the line I1-11 in Fig. 1.

In the figures, 1. denotes the driving shaft and 9 denotes the driven shaft of a drive unit consisting of the two gears 4 and 11. With a view to good adjustability of such variable capacitors, however, it is desirable to make the movement range required for the variation sufficiently large. In order to be able to fully utilize the intended angle of rotation of the rotor 10 of the capacitor, the rotor gear 11 would have to be adjustable, unless particularly tight manufacturing tolerances ensure that the gear is always in exactly the same position in its tooth position relative to the rotor finds. This is all the more necessary when the Zahnrider z. B. firmly connected to the axles by shrinking them on, as is customary for the production of large quantities. Although precision-3 working devices are used, which are inherently very expensive, it cannot be prevented that angular deviations in the rotary capacitor setting occur, so that exact alignment and earth positions cannot be guaranteed.

The invention avoids these disadvantages in that the fixed stop 6 is adjustable in that it is arranged on a plate 5 which in turn also serves as a bearing plate for the driving shaft 1 and can be rotated to fix the zero setting. Together with the bearing plate 5, the fixed stop 6 can then be fixed in its zero position, so it can be set as desired against the stop ring 2 or its nose 3 moved by the driving shaft 1. For this purpose, the bearing plate 5 is provided with recesses 7 which allow the plate 5 to be rotated together with the fixed stop 6 when the screws 8 are loosened, in order then to be fixed by means of the screws 8 after abutting against the stop lug 3, so that the So zero position can be selected. The range of rotation 99 of the bearing plate 5 or of the fixed stop 6 via the recesses 7 is selected to be at least as large as it corresponds to the angular division of the drive gear 4. The gear wheel 4 is in engagement with the gear wheel 11 of the rotor plates 10, the gear wheel 11 being expediently divided and tensioned by means of springs in order to additionally ensure absolutely backlash-free running. For the sake of clarity, the stator of the variable capacitor is not shown, for which the rotor 10 then has the precisely defined start and end position.

The drive shaft 1 runs in a bearing bushing 13, which in the invention rotatable bearing plate 5 is riveted. This socket 13 has a Collar 14, which is guided in a bore of the housing 12, whereby the center distance both gears 4 and 11 is fixed, since the shaft 9 of the wheel 11 in turn is also stored in the housing 12 again. This also ensures that Do not change the center distance during the adjustment process via the bearing plate 5 can. In production, the center distance is determined by punching both bearing holes at the same time guaranteed for shafts 1 and 9, in the same way as for collar 14. The end stop 3 is attached to the driving shaft 1, so that the driven shaft 9 from outside Torques is relieved.

The stop device shown according to the invention can also be used for rotation ranges over - '60 = if the stop ring 2 provided with the stop lug 3 is rotatably mounted on the drive shaft 1 and assigned to a further disk. which in turn is then firmly connected to shaft 1.

Claims (1)

PATENT CLAIM: Stop device for gear drives on rotary capacitors, consisting of a stop finger which is attached to the drive shaft and hits a fixed stop when it rotates, in particular for use in radio sets with a large transmitter scale, characterized in that the fixed stop (6) on a is arranged around the drive shaft (1) and on a housing wall (1?) rotatably fastened bearing plate (5). Considered publications: German Patent Nos. 503 776, 558 382, 907155; Swiss Patent No. 198 017; French Patent Nos. 930121, 954 864; British Patent Nos. 278 132, 692173; USA. Patent Nos. 1706 735, 1772 372, 855 24.449, 2,477,670, 2,479,555.