SU972165A1 - Fluidic acoutic transducer - Google Patents

Description

(54) JET ACOUSTIC CONVERTER

one

The invention relates to pneumatic automation and can be used in devices for measuring displacement, pressure, sound level and frequency of acoustic oscillations.

A well-known jet acoustic transducer contains two coaxially arranged capillaries fixed in the channels of the Helmholtz resonator 1.

Closest to the present invention, there is a jet acoustic transducer containing feed and receiving capillaries 2 coaxially fixed in the throat of the acoustic resonator.

A disadvantage of the known devices is low sensitivity.

The purpose of the invention is to increase the sensitivity of the jet acoustic transducer.

The goal is achieved by the fact that in a jet acoustic transducer containing coaxially fixed in the throat of the acoustic resonator, the supply and reception capillaries are placed in a channel communicated with the environment.

This eliminates the occurrence of flows directed towards the laminar jet.

flowing from the feeding capillary, and also allows to increase the length of the intersubutaneous distance up to the value of the transition zone of the laminar jet, which makes it possible to significantly increase the sensitivity of the jet 5 acoustic transducer.

FIG. 1 shows the structure of an inkjet acoustic transducer; in fig. 2 - performance characteristics of the prototype (graph I) and the proposed device (graph II).

The jet acoustic transducer (Fig. 1) consists of a resonator 1 with a throat 2, in which channels 3 and 4 are made. In channels 3 and 4, there is a power supply 5 and a receiving 6 capillary.

Inkjet acoustic transducer works as follows.

Compressed air under pressure PO is supplied to the supply capillary 5, which forms a laminar jet interacting with the receiving capillary 6. A through channel 4, whose area exceeds the area of the receiving capillary 6, allows the fully developed laminar jet to form a transition zone and a turbulent cone. No sound output pressure

 maximally, the appearance of sound shortens the laminar jet and shifts the turbulent cone toward the feeding capillary. The nozzle of the receiving capillary 6 falls into a turbulent cone, and the output pressure decreases. The presence of a through annular gap between the receiving capillary and the cavity channel in which it is placed results in the absence of currents opposite to the main laminar flow, which took place in the prototype upon reflection of the surface of the neck of the resonator adjacent to the nozzle of the receiving capillary -acoustic converter. An increase in the intensity of sound vibrations leads to a further shift of the turbulent cone and a decrease in the output pressure.

The proposed transducer makes it possible to use a small supply pressure PO, which forms a laminar jet, which is most sensitive to the effects of sound vibrations.

In addition to increasing the sensitivity, the proposed jet-driven acoustic transducer reduces the threshold of sensitivity to sound vibrations.

In the proposed design of the jet acoustic transducer, the decrease in output pressure begins with sound intensity values that slightly exceed the zero intensity level.

Claims (2)

Invention Formula An inkjet acoustic transducer containing a supply and a receiving capillary coaxially fixed in the throat of the acoustic resonator, characterized in that, in order to increase the sensitivity, the receiving capillary is placed in a channel communicated with the environment. Sources of information taken into account in the examination / V. Dmitriev, V. Gradetsky. Fundamentals of pneumatic automation. M., “Energie, 1973, p. 335. 2. USSR author's certificate number 173639, cl. F 15 D 1/08, 1969 (prototype). Wicked but