SU326463A1 - PRESSURE FREQUENCY SENSOR - Google Patents

Description

The invention relates to the field of instrumentation technology.

Known frequency pressure sensors based on the phenomenon of acoustic resonance in a half-wave tubular resonator and containing membrane microphones acoustically associated with a sealed half-wave resonator, the level of fluid in which varies in proportion to the measured pressure, has a pronounced non-linearity of the functional relationship between the volume of the resonator and its length due to the influence of additional air volumes not directly related to the dependence on the cavity length. These volumes include air volumes of microphone chambers and volumes of connecting tubes, one of which serves to input sound vibrations into the resonator and the other to pick them up at the receiving microphone.

In the described sensor, in order to obtain a linear dependence of the acoustic resonance frequency on the measured pressure, the resonator is above the maximum possible liquid level made in the form of a truncated cone, the volume of which is less by the volume of the microphone chambers and connecting tubes of the cylinder volume, with a cross section of cross section equal to plo

truncated cone, and a height equal to the height of the cone.

Fig 1 shows the proposed sensor, a general view; in fig. 2 is a section along A-A in FIG. one.

The sensor consists of a resonator /, enclosed in a metal case 2 and connected to it with a nomosh, connecting tubes 3 with microphones 4, one of which is receiving and the other radiating. A tank 5 filled with a liquid, for example, a transformer oil, is connected by pipeline 6 to a cavity 0 of the resonator 1. A liner placed in the upper part of the resonator, p. to reduce its diameter and, therefore, to adjust the cavity volume.

The tightness of the design is achieved by the fact that the connecting tubes 3 and the bottom S of the resonator / are connected by soldering, and the microphones 4 are pressed against the flanges 9 of the resonator / with the help of covers 10 through gaskets 11.

The sensor works as follows.

The measured pressure is supplied to the tank 5 and causes the liquid level in the cavity of the cavity to move. This leads to a change in the frequency of the acoustic generator, which, due to the application of the volume adjustment, is directly proportional to the measured pressure.

Temperature correction sensor can be done by any known methods.

Subject invention

A frequency pressure sensor containing membrane microphones pressure acoustically coupled to a sealed half-wave resonator, the fluid level in which varies in proportion to the measured pressure, characterized in that, in order to obtain a linear dependence of the acoustic resonance frequency on the measured pressure, the resonator is higher than The possible liquid level is made in the form of a truncated cocus, the volume of which is smaller by the volume of the volume of the microphone chambers and connecting tubes of the volume of the cylinder, with a square across cross section equal to the larger base area of the truncated cone and the height,

equal to the height of the cone.