SU993015A1 - Rotation frequency measuring device - Google Patents

Description

This invention relates to acoustics measuring technology and can be used in any branch of mechanical engineering.

The closest in technical essence to the present invention is a device for measuring the rotational speed, containing a sound source KO-I, an acoustically coupled receiver and a recording unit 1 connected to its output.

The disadvantage of this device is that it is impossible to make a remote measurement of the frequency of rotation of the shaft, since the source and receiver of sound vibrations are mechanical. are scientifically associated with the object under investigation.

The purpose of the invention is to provide a remote measurement capability.

This goal is achieved by the fact that in a device for measuring the rotational speed, containing a source, sound vibrations, a receiver acoustically connected to it and a recording unit connected to its output, the source of sound vibrations is made in the form of a metal dispersed on the shaft under study. and electromagnetically coupled with them, installed

diametrically opposed to two inductors.

FIG. 1 is a block diagram of a device for measuring rotational speed; in fig. 2 is a schematic constructional view of the source of sound vibrations from the side; in fig. 3 is a view along arrow A in FIG. 2

A device for measuring the rotational speed contains a source of sound waves 1, acoustically connected to the receiver 2 and connected to its output is a recording unit 3. The source of sound vibrations 1 is made in the form of a metal disk 4 fixed on the shaft under study 5 and electromagnetically connected with it, installed diametrically opposite to two inductance coils 6 and 7 rigidly

20 objects associated with the housing 8. The receiver 5 consists of a microphone 9 connected in series, a filter 10 and a decoder 11. The registration unit includes serially connected

25 amplifier 12 and frequency meter 13.

The device works as follows. When turning on the coils 6 and 7 (they can be mounted on the base,

Claims (1)

30 connected to the shaft 5 or outside of it) into an oscillator circuit (not shown), as a result of their electromagnetic coupling to the metal disk 4 as it rotates, the latter becomes an emitter of coherent monochromatic sound waves. These waves form a dynamic interference power priest. By shaping the dynamic. With the help of coherent monochromatic sources of wave radiation, which are dispersed in space according to a given law, information about the law of change in the motion of the allocated points of the interference pattern at the reception point, regardless of path and distance, is obtained. In this case, the selected points are nodes and antinodes resulting from the intersection of the fronts of sound waves, which rotate synchronously with the rotation of the disk 4. The selected points of the interference field are sensed by the microphone 9, filtered by the filter 10 and detected by the decoder 11. The signal from the decoder 11 is received by amplifier 12 and further to frequency meter 13, the readings of which are proportional to the frequency of rotation of the dynamic interference field, i.e. frequency of rotation of the metal disk 4 and, therefore, of the controlled shaft 5. The use of the proposed device allows you to remotely measure the frequency of rotation of the objects under study) located in hard-to-reach months. max, for example, inside the gearbox. Apparatus of the Invention A device for measuring the rotational speed, comprising a source of sound waves, an acoustically coupled receiver and a recording unit connected to its output, which is so that, in order to enable remote measurement, the source sound vibrations are made in the form of a metal disk fixed on the shaft under study and electromagnetically connected with it, installed diametrically opposite to two inductors. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 697814, cl. G 01 B 17/00, 1979 (prototype). LL) 1 Phage. 2 Fig.Z