SU682816A1 - Device for measuring sound reflection factor - Google Patents

Description

one

The invention relates to the field of instrumentation and can be used for acoustic measurements in unobstructed rooms.

A device for measuring the reflection coefficient of sound, comprising a source and a radiation receiver, is known, the radiation source being in the form of a pulse generator and radiator.

However, this device does not provide the required accuracy of measurements due to the influence of the moving signals caused by additional reflections from the signals diffracted and scattered by the edges of the images.

It is also known a device for measuring the reflection coefficient of sound, comprising a source and a sound receiver, mounted for movement relative to the test surface 2.

Such a device also does not provide the required measurement accuracy due to the influence of acoustic oscillations that are repeatedly reflected from the surfaces falling on the test surface at arbitrary angles.

The purpose of the invention is to improve the accuracy of the measurement of the reflection coefficient of the sound.

The goal is achieved due to the fact that the sound source is made in the form

a continuous koleoaniya generator and a highly directional parametric radiator connected to it, and a sound receiver made in the form of a microphone connected through an amplifier to the input of a registering counting unit, where the parametric radiator And sound receiver are placed axisymmetrically relative to each other with the possibility

synchronous movement relative to the test surface.

The drawing schematically shows a device for measuring the sound reflectance.

The device contains a parametric emitter 1, a generator 2, a tripod 3 for strengthening the emitter and the radiation receiver installed at a predetermined angle to the test surface 4. The radiation receiver 5, an electromechanical actuator 6, an amplifier 7 and a registering counting unit 8. Parametric emitter 1 is connected to generator 2 output, radiation receiver 5 through amplifier 7

connected to the input of the registering counting unit 8, the parametric emitter 1 and the radiation receiver 5 are placed on the base 3 axisymmetrically relative to each other with the possibility of synchronous movement with the electromechanical actuator 6 relative to the test surface 4.

When the device is in operation, the acoustic oscillations excited by the parametric emitter 1, after reflection from the surface 4, form a sound field in the form of standing waves. When the device is moved along the test surface, the radiation receiver fixes the pattern of standing waves as maxima and minima of the sound pressure, which is recorded by the registering counting unit as maxima and minima of a continuous electrical signal proportional to the reflection coefficient of the sound.

The device described makes it possible to measure the reflectivity of the sound at low frequencies with a sufficiently high accuracy in unplugged rooms, as well as in field and sea conditions.

Claims (2)

1. Klyukin I. I. et al. Acoustic measurements in shipbuilding. Ed. “Shipbuilding, 1968, p. 203. 2. Kolesnikov, A.E. Interferometric Pulse Method for Measuring Reflection Coefficient. “Measuring equipment number 5, 1974, p. 58-59 (prototype).