DE573328C - Directly pointing frequency meter - Google Patents

Description

Directly pointing frequency meter The subject of the invention is a pointer frequency meter, which is inherent in the sensitivity of tuned sound bodies, namely should This is understood in the narrower sense to mean the sensitivity, which is in the Expresses the steepness of the resonance curve itself.

The thought of using the resonance curve in which the sensitivity the resonance is present, namely in tuned electrical oscillation circuits Occurring resonance has led to some construction methods. But it is very difficult such circles from external influences, e.g. B. Temperature to make independent and especially to calculate exactly in advance. The Calibration to an absolute frequency is also very difficult; but straight to that Reproducibility of apparatus for an absolute correctness of the frequency In the present case it is particularly important. because @it's all about monitoring is about small fluctuations within a narrow measuring range.

Tuned vibrating bodies, such as tuning forks, can be structurally completely independent of the function to be transferred in advance exactly, that is oak. It has therefore been proposed that the mean amplitude of a resonant oscillation to convert the body into an electrical quantity and to use a pointer instrument transferred to. The difficulty in making such proposals lies mainly in that the effect is very small because of the vibrating body should not expect any significant energy output without the accuracy of its resonance curve affect at the consonance point. In a way, one disturbs the symmetry of the resonance curve between increasing and decreasing frequency. Different, But even more difficult to overcome concerns arise when it comes to the change in current is due to the interruption of contact. -One with the increasing amplitude A very well proportional current effect can be achieved in a manner known per se by induction currents, which in one with the oscillating system (the tuning fork) connected coil arise, which is immersed in a homogeneous rectified magnetic field. But for the reasons mentioned, these alternating currents must remain so weak that they cannot be used as display instruments for AC instruments. here Rectification now offers a solution to this difficult problem because the Small alternating currents transformed into pulsating direct current on moving coil devices with permanent magnets are sufficient to move a pointer, under Under certain circumstances, even the construction of a direct writing measuring device possible.

To this possibility, as well as to use with a proportionate fast There is a prospect of the regulator coming into action because it is, as at the beginning mentioned, in the present case only about the control of very narrowly limited measuring ranges and you therefore have an extraordinarily strong field on the small ones needed here Can concentrate deflection angle.

Fig. I shows two tuning forks i and 2, which are from the same AC source 3 are excited. Your tuning is a little lower with i and slightly higher than with 2 the normal frequency, maybe around: L /,%. On the prongs of the tuning forks are how in Fig. 2 can be seen more clearly, coils 4 and 5 attached, which in a homogeneous immerse permanent field. Since it is now a matter of vibrations of a few millimeters the magnets 6 and 7 can go in the shape of pot magnets, just like them for loudspeakers are available as marketable goods. There is also nothing in the way of energizing these pot magnets through DC coils because of voltage fluctuations with a suitable design of the display instrument in the manner of a quotient meter pick up again. The weak alternating currents that occur when the tuning forks vibrate are proportional to the amplitude. The course of the resonance is because it is precisely the ones to be taken Alternating currents require a negligible amount of energy and are therefore not worth mentioning Attenuation produce a fairly precise symmetrical shape both as it increases as well as with falling frequency. You can count on him in the sense 3 runs, and it is now a question of the ratio of the amplitude in the narrow area delimited by the two peaks of the resonance curve in to implement proportional currents. In the dry rectifiers 8 and 9, these weaken alternating currents converted into direct currents and in the strong magnetic field a differential galvanometer or a quotient meter (cross-coil instrument) brought into effect. The main thing here is that -in compliance with. Frequency, for example 50, both currents are equal. are so that the torques of the two Cancel each other.

In most cases, the tight measuring range is sufficient because, as I said, First and foremost, a quick and absolutely correct display of the changes is important. In order to make the measuring range a little larger, you can of course adjust the intervals of the take both tuning forks larger, maybe increase their amplitude, as @es Fig. 4 suggests. But a better remedy is an institution, which is shown schematically in Fig.5 and its physical justification in Fig.6 learns. If you use four tuning forks, you can make the forks larger choose, i.e. for frequency fluctuations between 49 and 5 i. One then uses ein_ two-fold instrument, which consists of two cross-wound systems that are based on act on the same axis. The coil pair i and 4 corresponds to the tuning forks with the natural oscillations 49 -and 5 i, while the coils 2 and 3 operated by tuning forks which are matched to the number of vibrations 49.5 and 50.5. The latter The pair is used for very precise measurements, while the other pair uses the resonance curves should control the larger fluctuation range. Since these fluctuations are less frequent occur, the corresponding forks may also be more strongly excited without thereby to suffer hardship.

Claims (3)

PATRENT CLAIMS: i. Directly pointing frequency meter in which the with the frequency changing degree of resonance of tuned vibrating bodies that limit a mean frequency, change the ratio of two currents, thereby characterized in that in a known manner by the swing of the matched Body (tuning forks) weak alternating currents are induced, which in itself rectified in a known manner and fed to the same movable direct current system be so this. with falling frequency after one, with increasing frequency to the other side. 2. Device according to claim i, characterized in that that a coil is attached to the tuning fork, which in a fixed strong permanent field oscillates back and forth. 3. Device according to claim 1 and 2, characterized in that the movable system consists of several interconnected systems, each of which is fed by a pair of tuned resonance bodies which input the normal frequency at more or less large intervals.