SU1168844A1 - Device for quality control of concrete - Google Patents

Abstract

A CONCRETE QUALITY CONTROL DEVICE, containing a sound impulse generator with a radiating transducer, a receiving transducer with an amplifier, a time meter and the first low-pass filter, the amplifier being connected to the time counter through the first low-pass filter, the other two inputs of which are connected to the corresponding generator outputs probe pulses, characterized in that, in order to increase the control accuracy, it is equipped with a low-pass controlled filter, adder, counter, weight. m filter, noise threshold limiter, differentiator, amplitude detector, scaling amplifier, amplitude code transducer, polling unit, second low-pass filter and information output unit, the inputs of the adder connected to the outputs of the second low-pass filter and controlled low-pass filter, the output of the adder through a series-connected weight filter, a noise threshold limiter and a differentiator connected to the input of an amplitude detector, the output of which is connected to one controlled input low pass filter and a scaling amplifier input, the output of which is connected to one input of the converter amplitude code (L output of which is connected to one input of the counter, the output of which is connected to one input of the survey, the other input is connected to the output of the time meter, the other inputs of the counter and the amplitude code converter are connected to the corresponding outputs of the probe pulse generator, and the amplifier is connected to the input of the second low-pass filter: And to another input of the controlled low-pass filter.

Description

1 The invention relates to the non-destructive control of the properties of materials with the help of ultrasound and can be used to control the quality of the products of reinforced concrete plants and the operational control of the erected materials. The aim of the invention is to improve the accuracy of control. The drawing shows a device for quality control of concrete. I The device contains a probe pulse generator 1, radiating 2 and receiving 3 transducers located in the acoustic material of control zone 4, amplifier 5, first low frequency filter 6 (LPF), and time measure 7, counter 8, second low frequency filter adder 10, weight filter II, limiter 12 thresholds of noise, differentiator 13, amplitude detector 14, scaling amplifier 15, converter 16 amplitude code, polling block 17, block 1B of high information and controlled low filter 19 frequencies. The device works as follows. The generator 1 probe pulses produces periodically following synchronization pulses, which through its third output go to the third input of the time meter 7 and the second input of the counter 8, resetting the accumulated information. After the time required for the termination of these processes, a pulse from the second spin of the generator 1 is triggered by a time measurement 7. At the same time, a powerful impulse appearing at the first output of the generator 1 excites the transducer 2, which sends an ultrasonic pulse to zone 4 of the material control. When propagating in the environment of zone 4 of the control, a time delay occurs, due to the elastic properties of the medium, and a change in the boundary frequency of the probe pulse spectrum, due to the structural properties of the medium. The pulses that have passed through zone 4 are fixed by the receiving transducer and transformed into an electrical signal, which increases in amplitude.

from the output of amplifier 5 using the low-pass filter 6, there is a low-frequency

LPF 19 in the initial state. Under these conditions, only the high-frequency 844 part of the spectrum appears at the output of the adder 10, the propagation delay time of which (due to the large wavelength of the corresponding oscillations) depends mainly on the elastic properties of the medium. The delay of the signal at the output of the low-pass filter 6 relative to the moment of sensing is measured with a time meter 7, the measurement result code is stored in the built-in counter. Simultaneously output sig. Amplifier 5 is fed through the low-pass filter 9 to the first output of the adder 10, to the second input of which the same signal passes through the controlled low-pass filter 19. The amplitude-frequency and phase-frequency characteristics of the low-pass filter 9 and 19 are the same in the vicinity of the upper limit frequency of the acoustic transparency of the controlled class material. In the initial state, the transmission wheel of the low-pass filter 19 is much smaller than the pass-band of the low-pass filter 9. In the adder 10, the signal from the output of the filter 19 is subtracted from the signal from the filter 9. Due to this, low-frequency interference, significantly reducing accuracy. spectral measurements are mutually destroyed. At the output of the adder 10, a signal is repeated, the lower frequency of which is Bbmie of the upper limit frequency of the controlled low-pass filter 19, which is in the initial state. Through the weight filter 11, which additionally attenuates the effect of low-frequency components, this signal enters the limiter 12 of the noise threshold, proportional to its frequency. Amplitude detector 14 converts the output signal of the differentiator. 13 to a constant voltage, which is fed to the control input of the controlled low-pass filter 19 and, through a scaling amplifier 15 to the input of the converter 16, the amplitude code. The output code of the transducer 16 is memorized by the counter 8. The higher the strength of concrete, the better the quality of its structure, the Bbmie the limit frequency of the spectrum of the received ultrasonic signal. In the unconsolidated concrete mix, only the lowest frequency components of the probe pulse pass within the controlled transmission band.

Claims (1)

DEVICE FOR CONCRETE QUALITY CONTROL, comprising a probe pulse generator with a radiating transducer, a receiving transducer with an amplifier, a time meter and a first low-pass filter, the amplifier through a first low-pass filter connected to one input of a time meter, the other two inputs of which are connected to the corresponding outputs probe pulse generator, characterized in that, in order to increase the control accuracy, it is equipped with a controlled low-pass filter, adder, counter, weight an filter, a noise limiter, a differentiator, an amplitude detector, a force-scaling body, an amplitude code converter, a polling unit, a second low-pass filter and an information output unit, the adder inputs being connected to the outputs of the second low-pass filter and a controlled low-pass filter, output the adder through a series-connected weight filter, a noise threshold limiter and a differentiator is connected to the input of the amplitude detector, the output of which is connected to one input of the controlled filter low frequencies and with the input of a scaling amplifier, the output of which is connected to one input of the amplitude-code converter, the output of which is connected to one input of the counter, the output of which is connected to one polling input, the other input of which is connected to the output of the time meter, other inputs of the counter and converter the amplitude code is connected to the corresponding outputs of the probe pulse generator, and the amplifier is connected to the input of the second low-pass filter and to the other input of the controlled low-pass filter. 1 1168844 2