SU1679357A1 - Materials quality control device - Google Patents

Abstract

The invention relates to non-destructive testing and can be used to control composite materials, multilayer Products and building structures. The purpose of the invention is to increase the reliability of control due to the rationing of the impact energy of a controlled product. The accelerometer generates a signal proportional to the acceleration at the moment of impact. The maximum value of this signal is compared with the reference voltage and, depending on the results, the voltage of the controlled source is controlled and, therefore, the amplitude of the pulse coming from the generator output to the electromagnetic hammer, which makes it possible to regulate the impact energy. 1 il.

Description

The invention relates to non-destructive testing and can be used to control composite materials, multilayer products and building structures.

The aim of the invention is to increase the reliability of control due to the rationing of the impact energy.

The drawing shows the block diagram of the device for quality control of materials.

The device comprises a pulse generator 1, an electromagnetic drummer 2, a force sensor 3 connected in series, mechanically connected to an electromagnetic drummer 2, a first amplifier 4, an analog-digital measuring converter 5, an averaging unit 6, a register 7 and an indicator 8, a series-connected accelerometer 9, mechanically coupled with electromagnetic drummer 2, second amplifier h 10, integrator 11, amplitude detector

12, a comparison unit 13, a controlled voltage source 14 and a switch 15, an adjustable reference voltage driver 16 connected by an output to a second input of the comparison unit 13. The control input of the key 15 is connected to the output of the pulse generator 1, and the output is connected to an electromagnetic hammer 2. The key 15 is connected by a control input to the output of the pulse generator 1, and the output to an electromagnetic hammer 2.

A device for quality control of materials works as follows. The pulse generator 1 generates a sequence of pulses that are fed through the key 15 to an electromagnetic drummer 2, which strikes at a controlled sample (not shown). The force sensor 3 converts impulses of impact force into electrical impulses, which through the first amplifier 4 are fed to the analog-digital conversion VI

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wagon 5. The output code of the analog-digital converter 5, proportional to the ratio Pt / 7, is fed to averaging unit 6, where the accumulation of results for N beats and their averaging occurs. The average value (Pgp / g) is entered into register 7 and fed to indicator 8, Accelerometer 9 registers the maximum acceleration, which the firing pin reaches at the moment of impact, and converts it to electric voltage, which is fed to the integrator 11 through the second amplifier 10, where it is converted to a signal proportional to the speed of the striker. The maximum value of this signal is extracted by the amplitude detector 12 and is fed to the input of the comparator unit 13. A reference voltage is supplied to the second input of the comparator unit 13 from the output of the adjustable voltage driver 16. The difference signal generated by the comparison unit 13 is fed to the input of the controlled voltage source 14, the change in the output voltage of which is proportional to the difference signal. This voltage is used to power the switch 15.

If the impact mechanism striker speed at the moment of impact is less than the specified one, then the voltage at the output of the amplitude detector 12 will be less than the reference voltage at the output of the adjustable driver 16. At the output of the comparison unit 13, a differential signal will increase the output voltage of the controlled source voltage 14. Consequently, the amplitude of the pulses at the output of the switch 15 will increase, and the intensity of the magnetic field inside the solenoid

electromagnetic shock mechanism 2, as well as the speed of the striker. Thus, the speed of the striker is stabilized at the moment of impact.

By varying the voltage at the output of the adjustable driver 16, it is possible to set the desired impact velocity, and hence its energy.

The invention makes it possible to increase the reliability of measurements by adjusting the impact energy of a test sample, depending on the characteristics of its material.

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Claims (1)

An apparatus for monitoring the quality of materials, comprising a pulse generator, an electromagnetic drummer, a force sensor connected in series, mechanically coupled to an electromagnetic drummer, a first amplifier, an analog-to-digital converter, an averaging unit, a register, and an indicator, characterized in that the reliability of the control due to the normalization of the impact energy, it is equipped with an adjustable driver of the reference voltage and an accelerometer connected in series, mechanically connected with an electromagnetic drummer, a second amplifier, an integrator, an amplitude detector, a comparator unit, a controlled voltage source and a key, a control input connected to the output of the pulse generator, an output to the electromagnetic drummer, and the output of an adjustable reference voltage driver is connected to the second input block comparison.