SU539268A1 - Ultrasonic material control device - Google Patents

Description

one

The invention relates to a technique for ultrasonic non-destructive testing of materials and products and can be used, in particular, in ultrasonic speed and attenuation meters and flaw detectors.

An ultrasound device for controlling materials is known, including, its synchronizer, probe pulse generator, receiver, sweep generator, sweep delay unit, electron beam indicator, unit of selection of useful signals, transducer 1.

A disadvantage of this device is the low productivity in the control of thick materials.

It is also known an ultrasonic device for controlling materials, containing a synchronizer, a probe pulse generator, a piezo converter and a receiving unit connected in series to its output, connected in series to a sweep delay unit, a sweep generator and an electron-beam indicator, connected to a temporary selection unit, whose input is connected to the receiving unit , control unit, counting unit and digital display unit.

The disadvantage of the device lies in the pizKoid control performance.

The increase in the control performance is ensured by the fact that the proposed device is equipped with two anti-fatigue tin, the inputs of which are connected respectively to the synchronizer, the output of the sweep delay unit and the output of the sweep geerator, the output is connected to the first input of the second block and the second one is connected to the output of the block Unravlenn, and the output to the second input of the counting unit.

The drawing shows a block diagram of the present device.

The device contains a piezoelectric transducer 1, a generator with 2 oscillating pulses, a synchronizer 3, a sweep generator 4, connected with its input, a block 5 of the delay: a sweep switch connected to the output of the generator 4, an electron beam indicator b, sequentially connected and receiving unit 7, block 8 time selection, control unit 9, counting unit 10 and digital display unit 11, unit 12 antenna, one input of which is connected to synchronizer 3, another input-with generator 4, third input-with output of block 5, and output-with second input bl About 5, the second block of apts 13, one input of which is connected to the output of block 12, the second input to the output of the control unit, and the output to the generator 2, block 8 of time selection and counting block 10.

The device works as follows.

The generator 2, using a piezotransducer 1, excites elastic oscillations in the product 14, which, reflecting many times from the plane-parallel faces of the product 14, are ignored by the piezoelectric converter 1, reconstructs electrical radio pulses B and amplifies in iriemnom unit 7. selection, which, from the hindustry of the probe-1 and multi-crypto-reflection from the faces of the products, the pulses separate out two signals characterizing the speed of the ultrasonic vibrations to Cereal. These signals are fed to a control unit 9, which produces an electrical impulse, the duration of which characterizes the speed of propagation or attenuation of the ultrasound.

In the counting unit 10, the pulse from block 9 serves to transmit the counting pulses, count them, followed by an indication of their number in the digital display unit 11.

The synchronization pulses for starting the sweep generator 4 are generated in the following IMM. In the initial position, the anti-coincidence unit 12 in the absence of a light pulse from the generator 4 and a sweep delay pulse from block 5 is open, and the synchronization pulse from synchronizer 3 passes the block 5 start, the pulse of which is started by generator 4. If the sum of the sweep duration and the sweep delay time is less than the period following the synchronization pulses, all the pulses from the spichronizer 3 will go to the generator 4. If this sum of durations is longer than the period of the synchronization pulses, then thanks to the locking pulse m backlight from the heater 4 and sweep delays from block 5, block 12 will skip the clock to start the generator 4

only after the end of the sweep pulses and the sweep delay.

The impulse of the siphropization for starting the generator 2, unit 8, time selector P1, counting unit 10 and unit 11 of digital information is generated in the following way.

The synchronization pulse from block 12 enters the anti-coincidence unit 13, for which the blocking pulse is a pulse from block 9. Consequently, at any frequency of the pulses from block 12, the start pulse will not go to blocks 8, 10, 11 until the measurement process ends.

Claims (1)

1. Patent of France N ° 2175482, M. Cl G O IN, 1972