SU1260689A1 - Reverberation chamber for measuring sound absorption - Google Patents

Abstract

The invention relates to a measurement technique and can be used to measure the sound absorbing properties of materials. The aim of the invention is to increase the measurement accuracy by creating a constant chamber volume independent of the sample volume. In the reverberation chamber, the sound absorption coefficient in a prism without a sample is first determined, but the sound reverberation time in a prism and the sound absorption coefficient of air are measured. Next, in a sample with dimensions equal to the dimensions of the moving wall, a hole is drilled with a diameter equal to the diameter of the microphone tube. The door is closed and with the help of a moving wall frame with the sample is pressed to the end of the prism. Thus, the object forms the end wall of the prism. On the spherical emitter signal. The signal is then interrupted and the process of decay of the sound pressure level is measured by a microphone. From the microphone output, the signal goes through a filter through a recorder, which draws the reverberation curves. The reverberation time of the sound in a prism with a sample is determined by the slope of the initial portion of the broken reverb curve. From the measured parameters, taking into account the known dependences, the sound absorption coefficient of the sample is determined. 1 il. b (L to 05 o o: oo with

Description

The invention relates to a measurement technique and can be used to measure the sound absorbing properties of materials.

The aim of the invention is to increase the measurement accuracy by creating a constant volume of the chamber independent of the sample size.

The drawing shows a reverberation chamber design for measuring sound absorption.

The reverberation chamber for measuring sound absorption contains a hollow quadrilateral prism 1 with a door 2, made in the form of a rectangular box and located on the front side of prism 1 perpendicular to its longitudinal axis (not shown), a spherical radiator 3 located at the corner of the prism 1, microphone 4 mounted in the door 2 a movable wall 5 and a frame 6 for securing the sample.

Provided for fixing in the center of the fixed wall 7 of the door 2 of the tube 8, passed through the frame 6 and the microphone 4; fixing the movable wall 5 with four screws 9 rotating in the nuts 10 to the fixed wall 7 of the door 2; connection of the microphone 4 with a filter (not shown), the output of which is connected to the recorder (not marked).

The reverberation chamber for measuring sound absorption works as follows.

The sound absorption coefficient ao in prism 1 without a sample is determined from the measured time Ti of the sound reverberation time in prism 1 and the sound absorption coefficient of the air. Then, a hole with a diameter equal to the diameter of the microphone tube 8 is drilled in the sample with dimensions equal to the dimensions of the moving wall 5.

The door 2 is closed and with the help of the movable wall 5, the frame 6 with the sample is pressed against the end face of the prism 1. Thus, the object forms the end wall of the prism 1.

0

five

0

.

five

On the spherical emitter 3 signal. The signal is then interrupted and the process of decay of the sound pressure level is measured by microphone 4. The received signal from microphone output 4 through a filter (not shown) is fed to a recorder (not shown), which draws the reverb curves. The reverberation time Ta of the sound in a prism with a sample is determined by the slope of the initial portion of the reverb broken curve (depending on the speed of the recorder paper). This area is directly related to the absorption of sound by the surface of the sample, and its slope is functionally related to the magnitude of the sound absorption coefficient. Over the T2 reverb time, the numerical value of the effective sound absorption is determined. Using a noomogram, the sound absorption coefficient a in the prism 1 is determined from the calculated values of the effective absorption φ (a). The sound absorption coefficient a of the sample is calculated by the formula

(a-ao) + ao,

where b is the ratio of the total area of the inner surfaces of the prism 1 to the sample area;

ao (a) is the sound absorption coefficient of a prism 1 without a sample (with a sample).

Claims (1)

Invention Formula A reverberation chamber for measuring sound absorption, containing a hollow quadrilateral prism with a door, a microphone and a spherical radiator, located in the corner of the prism, characterized in that, in order to improve the measurement accuracy, the door is made in the form of a rectangular box and is located on the front side of the prism its longitudinal axis, and the chamber is provided with a movable wall mounted in the door and a frame for securing the sample. Compiled by G. Ryzhakov Editor N. Gorvattehred I. VeresKorrektor Cherni Order 5215/37 Circulation 507 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5 Branch PPP "Patent, Uzhgorod, st. Project, 4