SU488065A1 - Jet frequency sensor - Google Patents

Description

one

The proposed device relates to the field of jet pneumatic automation and can be used as a sensor of various physical parameters, the value of which is converted to a frequency.

A jet frequency sensor is known that contains two sources of sound waves, one of which is connected to the channel of the parameter signal, and the second to the channel of the reference signal, and an information processing unit.

In the proposed sensor, an acoustic-pneumatic receiver with a Helmholtz resonator, acoustically connected with sources of sound waves, is installed, and the pneumatic output of the receiver is connected to the input of the information processing unit. Such structures are simpler known. In addition, the accuracy of the device is improved.

The scheme of the proposed sensor as applied to the analysis of the gas composition is shown in FIG. one.

FIG. 2 shows the output signals Vyh and Vyt2 sound sources, respectively, as well as the input Vhz and output Rvk, signals acoustic-pneumatic receiver.

The sensor contains a source of 1 sound waves (a whistle) associated with a channel of the parameter signal (in this case, with the gas being analyzed), a source 2 of sound waves associated with a channel of a reference signal,

an acoustic-pneumatic receiver 3 with a Helmholtz resonator, at the output of which a Pigin signal is formed; an information processing node 4 including an oscillator 5; counter 6; memory block 7; indicator 8; a suction element 9, which ensures the passage of gas through the whistles.

The device works as follows.

When sound oscillations are generated by sources 1 and 2, due to the position of these oscillations, beats appear - alternating the sound signal with a frequency equal to the difference of frequencies 1 of stechpik 1 and 2, with a carrier frequency equal to the nominal one (see Fig. 2).

In the case of gas composition analysis, sound sources (whistles) 1 and 2, tuned to the same frequency, are sucked through air through the suction element 9 (through source 1 - analyzed, through source 2 - reference). With the same composition, the frequencies are equal and there is no signal at the output of the receiver 3 (conditional zero). In the case of the appearance of the analyzed component, the frequency of source 1 is also measured at the output of receiver 3, but the oscillations entering the input of counter 6 are. The number of these oscillations during the cycle of an hour (or other tin) generator 5 is counted by a counter, recorded by the memory block 7 and is read from indicator 8. Gene3

The rator 5 controls the reset of the switch and the "update of the state of the memory block 7. The position of the indicator is the output of the device and allows judging about the composition (temperature, density) of the analyzed gas.

Subject invention

An inkjet frequency sensor containing two sources of sound vibrations, one of which is connected to the channel of the parameter signal, and the second to the channel of the reference signal, and an information processing unit, characterized in that, in order to simplify the design, to improve the accuracy of the device an acoustic-pneumatic receiver with a Helmholtz resonator, acoustically connected with sources of sound waves, is installed, and the pneumatic receiver output is connected to the input of the information processing unit.

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