DE320248C - Device for changing the wavelength - Google Patents

Description

Device for changing the wavelength. Subject of the invention is a further design, the device for changing the wavelength according to patent 30; 7i3. Namely in those cases where the with the circuit arrangement according to Fig. I des Main patent achievable wave range is not sufficient, it is according to the present Invention possible, using a principle known per se, for changing the wave another continuous and el: can be executed without using a switch Bring about shaft extension.

According to the main patent, there is a simple series combination of variometers and capacitor application; if this is in its maximum value position, so a further vein lengthening is no longer possible. As is well known, however, you can the apparent inductive is created by a capacitor connected in parallel to a coil increase the size of this coil. Now the variometer is in its maximum value position practically always a very large self-induction compared to the self-induction of the antenna -will, you can according to the present additional patent to your @ -ariometer of the main patent (see Fig. i of the accompanying drawing @ 'ariometer 2) connect a variable capacitor 8 in parallel, which is at zero until the variometer 2 has reached its highest value. If you now start with an enlargement this capacity 8, you can continue the natural oscillation of the antenna, namely Increase completely and steadily until the capacitance of this capacitor 8 is also full is switched on. Fig. I of the accompanying drawing shows this, namely is through the dotted arrow shows the maximum value position of this parallel capacitor 8 shown. If the wavelength is reduced, then again initially the capacitance of the antenna parallel capacitor 8 brought to the value zero, then the variometer 2 reduced to its smallest value and finally the series = capacitor 6 reduced to its initial position.

The facilities according to the main patent and the present additional patent allow, with the introduction of a very small amendment, to achieve a technically completely new effect. You increase the size of the shaft when you extend the shaft the capacitance of the series capacitor 6 and then the variometer 2, the increases Wavelength steadily increasing. If you now reduce the self-induction again first 2 and then the capacitance 6, the wavelength falls steadily ah. This also occurs a; -If you first use the capacitor 6 in the reverse order, then only then the variometer 2 is reduced in size. How easy to see; are then reduced in size the same wavelengths due to a different combination of self-induction and Capacity reached than (read the case with enlargement. In other words, the antenna's own attenuation can be for the same wavelength for back and forth can be made different. The same applies to the coupling with other Circles. By the way, you are also able to not only use two different values called Achieve back and forth zri, but any number of values, by adding at will, z. B. when decreasing, first the capacitor ehvas reduced and only then that Variometer begins to shrink or also when decreasing, e.g. B. Variometer and Condenser, reduced in size at the same time. If one: the mutual relationship adjustable makes a special regulation for the coupling of further circles can be dispensed with, since the coupling between variometer and any in your Fixed coils arranged in fields variable according to the mutual induction is. According to the invention you are now able to use the same wavelength in the antenna to generate with any number of different values of the variometer self-induction, one is therefore also able to use the same wavelength at just as many different ones To achieve couplings with the fixed coupling coils arranged in the variometer field. In this way, special devices for changing the coupling including operating handles, moving coils, etc. superfluous. The operation of the apparatus takes shape extremely easy there one can easily meet the facility that one z. B. when going down, when you start with the smallest wave, the whole thing Wave area passes through in a completely unambiguous and therefore calibratable manner and then read off the wavelength of the reception from the calibration. The establishment can then easily continue to be made in such a way that with a change in the ratio from capacity to self-induction with constant wavelength (read interaction of the variometer with the shortening or lengthening capacitor or with both only the coupling with the coupled circles changes while the resulting sizes of capacitance and self-induction in relation to the antenna remain completely the same. This arrangement becomes practically easy to carry out if one sees to it that the Variometer and the capacitors the antenna wavelength when rotating the tuning means uni change the same amounts in the same way; then you can do it without further ado inevitably couple in any position and without further ado a constancy of the achieve the resulting wavelength. As already mentioned, these couplings can be make it solvable and for this purpose a sequence of enlargements or reductions of this kind introduce that on the basis of this sequence calibration is carried out according to wavelengths can.

Fig. 2 schematically shows a rotary variator. consisting of the outer Coil i and an inner ball coil 2. One or more fixed coils 3 are with coupled to the variometer and are used to connect additional circles, e.g. B. an aperiodic Detector circuit or a secondary circuit. The turning handle 4. of the variometer is adjusted the schematically indicated by a correspondingly designed driver device 5 Variable capacitor 6, which shortens the antenna. By means of a tooth segment 7 ensures that the antenna parallel capacitor 8 is only adjusted is when (read the variometer has reached its highest value. In the arrangement after Fig. 2 shows the series capacitor 6 when turning the knob 4 to the right, then the variometer 2, then finally the parallel capacitor 8 can be enlarged. At the Turning to the left can initially be achieved by a spring-loaded locking toothing. 9, in their place also other kinematic aids, e.g. B. lever transmissions, cams o ,. Like., Can occur, it is ensured that the capacitor 8 initially on his The largest value remains and only after some reduction in the variometer 2 at the N reduction participates. On the other hand, by pressing button 4 it is easily possible to do so to ensure that the. Reduction of the capacitor 6 in any freely selectable Moment begins. Are the laws of change of the variometer and the capacitors or their kinematic dependence on each other chosen so that the electrical Constants of the series and parallel capacitors when the kilo) rotates backwards .4 remain unchanged, the antenna wave remains unchanged, and only the coupling ring with the coil 3 is weakened. The apparatus shown in Fig. 2 therefore works so that when turning to the left while keeping the vote constant, only the coupling changes and is therefore easily able to try out the optimum volume.

Claims (4)

PATENT CLAIMS: i. Z "orrichtung for changing the wavelength according to the main patent 307713, characterized by the combination of a variometer with two variable capacitors, one of which is connected in series, the other in parallel to the variometer, for the purpose of a constant change in the wavelength over the To enable arrangement according to the main patent achievable level addition. 2. Apparatus according to claim z, characterized in that with a shaft extension the order of changing the three by the two- capacitors and that Variometer given sizes is different than with a shaft shortening. . 3rd Device according to claim 1 and 2, characterized in that it is used for changing the coupling. is used while keeping the wavelength constant, with the keeping constant the wavelength is achieved in that the resulting self-induction in is increased to the same extent as the resulting capacity falls, or vice versa. 4. Apparatus according to claim i to 3, characterized in that the temporal Sequence and the type of movements of the combined tuning means Mediation of driver devices, toothed segments, friction clutches, resilient Locking teeth and other kinematic aids, such as lever transmission, Cam, etc., is controlled.