SU1474732A1 - Gas jet acoustic radiator of wide bandwidth signals - Google Patents

Abstract

This invention relates to technical acoustics and can be used to create acoustic test benches. The aim of the invention is to simplify the tuning of the frequency deviation. The supersonic jet from the nozzle orifice enters the cavity of the resonator 5 placed on an axisymmetric rod. The bottom of the resonator 8 is driven by the vibrator 7 and excites forced oscillations of the resonator body through an element with adjustable elasticity 9. The condition is given from which the elasticity of the element is chosen. 1 il.

Description

The invention relates to the field of technical acoustics and can be used to simulate high-intensity industrial noise and create acoustic test benches.

The aim of the invention is to simplify the adjustment of the frequency deviation.

The drawing shows a diagram of the device.

The acoustic emitter consists of a prechamber 1 connected to a source of compressed gas (not shown), a nozzle 2 mounted with a mounting unit 15 3 on a housing of a vibrator 4, a housing 5 of the resonator, an axisymmetric rod 6, a vibrator 7, the bottom 8 of the resonator, elastic element 9 with a node 10 adjusting the elasticity. 20

The device operates as follows. at once.

A supersonic jet flowing out of the nozzle orifice runs on the cavity 5 of the cavity, the edge of which is placed in the second half of the first cell of the free stream. At a certain distance from the edge of the cavity, a disconnected shock wave is formed. For a fixed position of the 30th bottom of the bottom 8 and body 5 of the resonator, the period of the emitted acoustic wave is determined by the time of four times the perturbation inside the subsonic section of the jet between the shock gg of the seal and the bottom 8. The bottom displacement with the help of the vibrator 7 leads to a change in the cavity depth 5. The movement of the bottom resonator with a vibrator oscillation frequency causes forced. to oscillation of the system formed by the elastic element 9 and the mass of the housing 5 of the resonator, with the same frequency S2.

With a harmonic law of variation of ^1. frequency, the bottom 8 of the resonator and the body 5 45 of the resonator oscillate with opt,. a certain phase shift, the optimal values of which are in the range 135-180 ° = Q / ω ₀ > 1, where ω ₀ with the parameter £ = the frequency of free oscillation of a mechanical oscillator with the elasticity of the elastic element c and the mass of the resonator body w. The change in the mode of operation of the emitter (or its correction) is carried out by increasing or decreasing the elasticity of the elastic element 9 and changing the amplitude-time characteristics of the electrical signals controlling the operation of the vibrator.

Changing the elasticity of the elastic element 9 is carried out by means of a node 10 located on the axial rod of the bottom of the resonator 8 and including, in the case of an elastic element in the form of a spring, threaded adjusting and fixing washers with a groove washer sandwiched between them and a friction material gasket. The rotation of the adjusting washer causes an increase or decrease in the radius of the spring and leads to a change in elasticity.

Claims (1)

Claim A gas-jet acoustic emitter of broadband signals, comprising a prechamber connected to a compressed gas source and an annular nozzle, with an axisymmetric rod and an annular resonator located on the nozzle axis, the bottom of which is connected to: a vibrator with the ability to move along the rod and the vibrator body, characterized in that, in order to simplify the adjustment of the frequency deviation, an element with adjustable elasticity is introduced into it, by means of which the bottom of the resonator is connected to the housing, and the elasticity of the element is selected from conditions Q / С0 _о >> 1, where Q is the oscillation frequency of the vibrator, and b) ₀ is the natural frequency of the oscillations of the resonator body.