SU1054683A1 - Jet-pipe frequency transducer - Google Patents

Abstract

A JET FREQUENCY SENSOR containing two sources of sound vibrations placed in a housing, an acoustic-pionmatic receiver with a Helmholtz resonator, acoustically connected with sources of sound vibrations, characterized in that it increases the sensitivity, reliability, and simplifies the power supply circuit. membranes placed in the housing and dividing it into three chambers; in the middle chamber there is an acoustic-pneumatic receiver with a Helmholtz resonator; simm Sources of sound vibrations located relatively to the receiver, one of the chambers with a source of sound vibrations is filled with the test gas, the other with atmospheric air, and both sources of sound vibrations are connected to a common pneumatic line.

Description

The invention relates to jet pneumatic automation and can be used as a sensor of the composition of corrosive and toxic gas environments.

Known devices used as sensors of the frequency difference when regulating the speed of turbojet engines [1).

The disadvantage of these devices is the complexity of the circuit design.

Also known are devices containing two sources of sound vibrations located in the housing, an acus anticopneumatic receiver with a Helmholtz resonator and an information processing unit, acoustically connected to the sound vibration source C? 7.

Such devices are characterized by insufficient sensitivity, reliability and complexity of the power circuit.

The purpose of the invention is to increase the sensitivity, reliability and simplification of the power circuit.

This goal is achieved by · 25 that the sensor is equipped with a pneumatic line, two membranes located in the housing and dividing it · into three chambers, an acoustic-pneumatic receiver with a Helmholtz resonator connected to the information processing unit is placed in the middle chamber, c. The sound sources of sound vibrations symmetrically located relative to the receiver are measured at the two end chambers, one of the chambers is filled with the sound vibrations source by the test gas, the other is filled with atmospheric air, and both sound vibrations sources are powered from the same pneumatic line. .

The drawing shows an inkjet frequency sensor.

The sensor contains a housing 1 with membranes 2 located in it, dividing the sensor into two extreme chambers 3 and 4 and a middle 5. In the middle chamber 5 there is an acoustic-pneumatic receiver (APP) 6 with a Helmholtz resonator, and sources are installed in the outer chambers 3 and 4 7 and 8 sound vibrations. Chamber 3. is communicated with the analyzed gas using fittings 9 and 10, chamber 4 is in communication with the atmosphere using fittings 11 and 12. The supply line to sound sources 7 and 8 is supplied via pneumatic line 13.

VNIIIPI Order 9091/47

Mixture with analyzed gas through units 2

The sensor operates as follows.

Sources of sound vibrations 7 and 8 are fed from one regulator through a pneumatic line 13. In the chamber 3, a test gas is supplied through the nozzle 9, which enters the resonating cavity of the whistle 7 and changes the frequency of its vibrations, the spirit is removed from the center 10 to neutralize. The chamber 4 is identical in design to the chamber 3, the supply air of the whistle 8 is discharged into the atmosphere through the nozzle 11 (12).

Acoustic vibrations of sources 7 and 8 of sound vibrations penetrate the chamber 5 through the membrane 2.

Since the whistles 7 and 8 have very close characteristics, beating often occurs at the entrance of the submarine 6, the envelope of which is allocated by the APP. The signal from the output of the APP 6 goes to the information processing circuit.

The effectiveness of the invention lies in the fact that the analyzed gas is not supplied directly to the source of sound vibrations, the possibility of clogging the cross sections of the sources of sound vibrations by corrosion products of structural materials and products of phase transitions of the analyzed medium is excluded. This significantly increases the service life of sensitive elements and the stability of the device. The presence of a membrane makes it possible to protect the sensor elements from corrosion and the atmosphere from pollution. The invention makes it possible to power both sources of sound vibrations from one regulator, which reduces the error of the device from pressure changes that occurs when the sound sources are supplied with a separate reference and analyzed gas. In the sensor, sensitivity and accuracy are increased, since due to the presence of dividing membranes, the mutual influence of sensitive elements on each other is excluded. The invention simplifies the configuration and maintenance of the sensor, as it consists of three separate cameras - blocks, each of which can be configured separately.

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Branch of PPP Patent ’’, Uzhhorod, st. Project, 4

Claims (1)

A JET FREQUENCY SENSOR containing two sources of sound of two vibrations located in the housing, an acoustic-pneumatic receiver with a Helmholtz resonator, acoustically connected to sources of sound vibrations, characterized in that, in order to increase sensitivity, reliability and simplify the power supply circuit, it is equipped with a pneumatic line , two membranes located in the housing and dividing it into three chambers, an acoustic-pneumatic receiver with a Helmholtz resonator is placed in the middle chamber, a symmetry is placed in the two extreme chambers sources of sound vibrations that are normally located relative to the receiver, one of the chambers with the source of sound vibrations is filled with the test gas, the other with atmospheric air, while both sources of sound vibrations are connected to a common pneumatic line. 1 1054683