SU892290A2 - Device for measuring sound absorbtion coefficient - Google Patents

Description

(5) DEVICE FOR MEASUREMENT OF COEFFICIENT

I

The device relates to a measuring technique and can be used in hydrophysical studies.

According to the main auth. If 697912, a device for measuring sound absorption coefficient is known, which contains a signal generator, an emitter, a sound pressure receiver, a recorder and a feedback amplifier, which is connected between the meter and the sound pressure receiver by a coup, as a frequency generator, used 1 second frequency generator, and as a recorder master clock scan, where the output of the oscillating frequency generator is connected to the sound pressure receiver and the input of the feedback amplifier, the output of which is It is connected with a radiator and a recorder with a privately-dependent spin-down 1. SOUND ABSORPTION

The disadvantages of the known device is low measurement performance and narrow functionality.

The aim of the invention is to increase the measurement performance and enhance the functionality by being able to measure the speed of sound.

The goal is achieved

The fact that a differentiating circuit, a threshold device, a switching device, a frequency counter and a multiplying device, as well as

Claims (2)

"S delay line, the differentiating target input connected to the recorder output with frequency-dependent sweep, another switching device input to the oscillating frequency generator 20 output, the delay line input connected to the switching device output, and the output to the second frequency counter input. Figure 1 is a diagram of an apparatus for automatically measuring the speed of sound; Fig. 2 diagrams of the voltages at the outputs of the blocks. The device for measuring the sound absorption coefficient contains a sound emitter 1, a sound receiver 2, a feedback amplifier 3, and a oscillating frequency generator -4, one output of which is connected to the output of a feedback amplifier 3, a recorder with frequency-dependent sweep 5, whose input connected to the output of the feedback amplifier 3, serially connected differentiating circuit 6, threshold device 7, switching device 8, often tomer 9, multiplying device 10 and delay LINE 11, the input of which is connected to the switch device 8, and the output - with the output of the frequency meter 3, the second output of the oscillating frequency generator k is connected to one of the outputs of the switching device 8. The device will work as follows. The oscillator Q of the oscillating frequency supplies a continuous series of frequencies of small amplitude to the input of the amplifier 3 feedback. Since the feedback amplifier 3 is switched on electro-acoustically in series with the sound emitter 1 and the sound receiver 2, a series of successive amplitude peaks are formed at the output of the amplifier at operating frequencies fy, for which the phase balance f is performed - and where E is the base measurements; n is the number of wavelengths placed on the basis of the measurements; c is the speed of sound. By varying the amplitudes of these peaks, the sound attenuation is judged. The speed of sound can be determined from formula (1) if one takes the frequency difference between two adjacent peaks 6 from here. (3) To distinguish the speed of sound, the voltage corresponding to a certain amplitude peak is fed to an differentiating circuit that forms positive and negative voltage spikes. Threshold arrangement. 4, 7 responds to a positive outlier of a certain amplitude and produces a triggering positive pulse that is applied to one of the outputs of the switching device. Not another input of circuit 9 receives the voltage frequency f from the oscillating frequency generator, which arrives at the output of the switching device only upon the arrival of a damping pulse from the threshold device. From the output of the switching device, the signal frequency fj is fed to one of the outputs of the frequency meter and to the input of the delay line. The purpose of the delay line is to delay the signal of frequency fy for the time required for the arrival of the signal of frequency f. Then the signal f ,, arriving at one of the inputs of the frequency meter, will be mixed with the frequency of the signal f y ,, as a result of the output of the frequency meter, operating in the frequency difference measurement mode, a frequency signal, -f ", will be received. To finally obtain the speed of sound, a signal with frequency Af is fed to a multiplying device, producing the effect of multiplying Af " 2. As a result, the output voltage g, numerically equal to the sound speed C, is obtained at the output of the g multiplication stage. Thus, simultaneous measurement of sound attenuation and sound speed with a single device improves measurement performance, and automation of measuring sound speed simplifies operation of the device and improves accuracy measurements. Claims of Invention A device for measuring sound absorption coefficient according to ed. No. 697912, characterized in that, in order to improve the measurement performance and enhance the functionality due to the possibility of measuring the speed of sound, serially connected differentiating circuit, threshold device, switching device, frequency meter and multiplying device, as well as a delay line, are inputted into it. the differentiating circuit is connected to the output of the recorder with a frequency-dependent sweep, another input of the switching device 58 is connected to the output of the oscillating oscillating frequency, the line input is decelerated is connected to the output of the switching device, and the output is connected to the second input of the frequency meter. 92290 Sources of information taken into account during the examination 1. USSR author's certificate N 697912, cl. G 01 N 29/00, 197о (prototype). --1-1 city / UL a-, rVA Ii