SU1104312A1 - Pneumoelectric converter - Google Patents

Abstract

A PNEUMATIC ELECTRICAL CONVERTER containing a pneumatic acoustic with a resonator and a piezoelectric element, characterized in that, in order to increase efficiency, the piezoelectric element is housed in the resonator case of the pneumatic acoustic element.

Description

(L

four

: IN :)

/

one

This invention relates to automatic control and can be used in electropneumatic control systems.

A pneumatic-electric converter is known, in which piezoceramic plates convert the vibrational energy of the air pressure supplied from a modulator made on the elements of pneumatic automation to the energy of electrical oscillations lj.

However, in this device, the piezoelectric element operates in a quasistatic mode and has a low conversion efficiency.

The closest to the proposed is a pneumatic transducer containing pneumatic acoustic with a resonator and piezoelectric elements 2.

However, in a known device, the conversion efficiency is unsatisfactory.

The purpose of the invention is to increase the conversion efficiency in a pneumatic transducer.

The goal is achieved by the fact that in a pneumatic transducer containing a pneumatic acoustic with a resonator and a piezoelectric element, the latter is located in the resonator housing of the pneumatic acoustic element.

The drawing shows the structure of a pneumatic transducer.

The pneumoelectric transducer contains a pneumo-acoustic element consisting of a fixing bracket 1 with a nozzle 2 fixed in it, in which the insert 3 forms a wall plate 43122

This nozzle 2 is a slit from which air flows out of the resonator 4 with a bottom made of a piezoelectric element 5 and fixed around the circumference 5 of the resonator body 4.

The device works as follows.

The air, which has exhausted from the gap, falls on the sharp wedge edge of the resonator 4, exciting periodic vortices. The resonator 4 is tuned by moving it relative to the clamp 1 along the micrometer thread. The parameters of the piezoelectric element 5 are chosen in such a way that its resonance frequency corresponds to the frequency of the whistle in the area of working pressures, which is calculated by the formula

),

where C is the speed of sound in air, S is a coefficient that is dependent

from gas pressure, h is the depth of the resonator. The voltage of the signal from the piezoelectric element 5 with the frequency of the junction is W1CODE of the pneumoelectric converter.

When using pneumatic transducers in closed control loops, the proposed device can be used as a power source or interfaced with a higher power electropneumatic transducer.

When using a pneumatic transducer at frequencies of the order of tens of kHz, the overall dimensions of the device are significantly reduced.

Claims (1)

PNEUMO-ELECTRIC CONVERTER containing pneumatic-acoustic with a resonator and piezoelectric elements, characterized in that, in order to increase the efficiency, the piezoelectric element is placed in the resonator body of the pneumatic-acoustic element. 1 1104312 2